U.S. ENVIRONMENTAL PROTECTION AGENCY
NATIONAL EUTROPHICATION SURVEY
WORKING PAPER SERIES
REPORT
ON
, OLD HICKORY, AND
J, PERCY PRIEST RESERVOIRS
CHEATHAI-t DAVIDSON, SUMER, WILSON
SMITH, TROUSDAL£, AND RUTVEKFORD COUNTIES
EPA REGION IV
WORKING PAPER No,
CORVALLIS ENVIRONMENTAL RESEARCH LABORATORY - CORVALLIS, OREGON
and
ENVIRONMENTAL MONITORING & SUPPORT LABORATORY - LAS VEGAS, NEVADA
•frG.P.O. 699-440
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REPORT
ON
CHEAm OLD HICKORY, AND
J, PERCY PRIEST RESERVOIRS
CHEAm WVIDSOIl SIMCR, WILSON
SMITH, TROUSDALE, AND RUTHERFORD OJUMTIES
EPA REGION IV
WORKING PAPER No, W*
WITH THE COOPERATION OF THE
TENNESSEE DEPARTMENT OF PUBLIC HEALTH
AND THE
TENNESSEE NATIONAL GUARD
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REPORT ON CHEATHAM, OLD HICKORY, AND J. PERCY PRIEST RESERVOIRS
CHEATHAM, DAVIDSON, SUMNER, WILSON, SMITH,
TROUSDALE, AND RUTHERFORD COUNTIES, TENNESSEE
EPA REGION IV
by
National Eutrophication Survey
Water and Land Monitoring Branch
Monitoring Applications Laboratory
Environmental Monitoring & Support Laboratory
Las Vegas, Nevada
and
Eutrophication Survey Branch
Corvallis Environmental Research Laboratory
Corvallis, Oregon
Working Paper No. 444
OFFICE OF RESEARCH AND DEVELOP 1ENT
U.S. ENVIRONMENTAL PROTECTION AGENCY
December 1976
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I
CONTENTS
Page
Foreword jj
List of Study Lakes - Tennessee iv
Lake and Drainage Area Map v - vii
Sections
I. Conclusions 1
II. Lake and Drainage Basin Characteristics 6
III. Lake Water Quality Summary 8
IV. Nutrient Loadings 17
V. Literature Reviewed 27
VI. Appendices 28
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ii
FOREWORD
The National Eutrophication Survey was initiated in 1972 in
response to an Administration comitment to investigate the nation-
wide threat of accelerated eutrophication to freshwater lakes and
reservoirs.
OBJECTIVES
The Survey was designed to develop, in conjunction with state
environmental agencies, information on nutrient sources, concen-
trations, and impact on selected freshwater lakes as a basis for
formulating comprehensive and coordinated national, regional, and
state management practices relating to point source discharge
reduction and nonpoint source pollution abatement In lake water-
sheds.
ANALYTIC APPROACH
The mathematical and statistical procedures selected for the
Survey’s eutrophication analysis are based on related concepts
that:
a. A generalized representation or model relating
sources, concentrations, and impacts can be
constructed.
b. By applying measurements of relevant parameters
associated with lake degradation, the generalized
model can be transformed into an operational
representation of a lake, its drainage basin, and
related nutrients.
c. With such a transformation, an assessment of the
potential for eutrophication control can be made.
LAKE ANALYSIS
In this report, the first stage of evaluation of lake and
watershed data collected from the study lake and its drainage
basin Is documented. The report is formatted to provide state
environmental agencies with specific information for basin
planning [ 3O3(e)], water quality criteria/standards review
[ 3O3(c)], clean lakes [ 314(a,b)], and water quality monitoring
[ 1O6 and §305(b)] activIties mandated by the Federal Water
Pollution Control Act Amendments of 1972.
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111
Beyond the single lake analysis, broader based correlations
between nutrient concentrations (and loading) and trophic condition
are being made to advance the rationale and data base for refine-
ment of nutrient water quality criteria for the Nation’s freshwater
lakes. Likewise, multivariate evaluations for the relationships
between land use, nutrient export, and trophic condition, by
lake class or use, are being developed to assist in the formulation
of planning guidelines and policies by the U.S. Environmental
Protection Agency and to augment plans implementation by the
states.
AC KNOWLEDGMENTS
The staff of the National Eutrophication Survey (Office
of Research and Development, U.S. Environmental Protection
Agency) expresses sincere appreciation to the Tennessee Department
of Public Health for professional involvement, to the Tennessee
National Guard for conducting the tributary sampling phase
of the Survey, and to those Tennessee wastewater treatment
plant operators who provided effluent samples and flow data.
The staff of the Division of Water Quality Control, Tennessee
Department of Public Health; the Division of Environmental
Planning, Tennessee Valley Authority; and the Nashville District
Corps of Engineers provided invaluable lake documentation and
counsel during the Survey, reviewed the preliminary reports
and provided critiques most useful in the preparation of this
Working Paper series.
Major General William C. Smith, former Adjutant General
of Tennessee, and Project Officer,Colonel Wilburn C. Johnson,
who directed the volunteer efforts of the Tennessee National
Guardsmen, are also gratefully acknowledged for their assistance
to the Survey.
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iv
IIATIONAL EUTROPHICATION SURVEY
STUDY LAKES
STATE OF TENNESSEE
LAKE NAME
Barkley
Boone
Cheatham
Cherokee
Chi ckamauga
Douglas
Fort Loudon
Great Falls
Nickajack
Old Hickory
Percy Priest
Reel foot
South Hoiston
Tims Ford
Watts Bar
CO UN TV
Stewart, Montgomery
(Trigg, Lyon in KY)
Washington, Sullivan,
Carter
Cheatham, Davidson
Jefferson, Hamblen,
Grainger, Hawkins
Hamilton, Rhea, Meigs,
McMinn
Sevier, Jefferson, Cocke
Loudon, Knox, Blount
White, Van Buren
Marion, Hamilton
Sumner, Davidson, Wilson,
Smith, Trousdale
Davidson, Rutherford
Obion
Sullivan (Washington in
VA)
Moore, Franklin
Rhea, (‘leigs, Cumberland,
Roane, Loudon
Franklin, Coffee
Woods (Elk River)
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CHEATHAM RESERVOIR
0 Tributary Saeçling Site
)( Lake Saiçllng Site
Sewage Treatn nt Facility
Km.
LI en j
Map Location
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MaD Lccation
OLD HICKORY RESERVOIR
® Trlbutarj s 11nq Site
X Lake S 11ng Site
S iage Treat nt Facility
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REPORT ON OLD HICKORY, J. PERCY PRIEST, AND CHEATHAM RESERVOIRS,
TENNESSEE - STORET NOS. 4720, 4723, AND 4706.
1. CONCLUSIONS
A. Trophic Condition:
Old Hickory and Cheatham Reservoirs are considered
eutrophic, i.e., nutrient rich and highly productive, on the
basis of field observations and Survey data. Whether such
nutrient enrichment is to be considered beneficial or delete-
rious is determined by its actual or potential impact upon
designated beneficial water uses of each lake.
Primary production as measured by algal assay control
yields was high in both of these two main stem impoundments.
Low Secchi disc visibility caused by suspended colloidal clay
particles in the water column was reported. Of the 16
Tennessee lakes sampled in 1973, only one had higher median
total phosphorus and none had higher median orthophosphorus
levels than Cheatham Reservoir. The uflow_throuqhu nature of
these two reservoirs minimizes the problem manifestations of
high nutrient input.
J. Percy Priest, a young storage impoundment (construction
was completed in 1968) is considered eutrophic. Large numbers
of pollution tolerant genera were predominant among the phyto—
plankton identified during October sampling. In both surmier and
fall, dissolved oxyqen concentrations were seriously depressed
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2
with depth, and hydrogen sulfide production was detected during
August. Blue—green algal blooms and algal-related turbidity
in the reservoir have been noted in a study by the Tennessee
Department of Public Health (1975). The relatively long reten-
tion time of J. Percy Priest Reservoir allows such manifesta-
tions of high nutrient levels, as algal blooms, low oxygen and
anaerobic odor generation to become apparent during the summer
months.
Mean chlorophyll a levels were 8.8 pg/i in Old Hickory
Reservoir, 10.0 pg/i in J. Percy Priest, and 8.7 pg/i in
Cheatham Reservoir.
B. Rate-Limiting Nutrient:
Algal assay results suggest that in the spring, primary
production was limited by available phosphorus in Old Hickory
Reservoir, and was co-limited by available nitrogen and phos-
phorus in Cheatham Reservoir. Mean lake inorganic nitrogen
to orthophosphorus (N/P) ratios measured on subsequent sampling
dates reveal nitrogen limitation in both reservoirs in the
fall, and in Cheatham Reservoir in the summer.
No algal assay results are available for J. Percy Priest
Reservoir. Mean lake N/P ratios suggest that it was nitrogen
limited in the spring and fail, and phosphorus limited in the
summer.
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3
C. Nutrient Controllability:
1. Point sources -
The mean annual phosphorus loads from point sources
were estimated to be 2.4% of the total load reaching Old
Hickory Reservoir and 26.7% of the load reaching J. Percy
Priest Reservoir. Of the latter, 14.5% was contributed
by the Murfreesboro Lytle Creek Plant. Phosphorus load-
ing to Cheatham Reservoir was estimated to be 8.9% point-
source in nature, of which 8.1% was contributed by the
five wastewater treatment plants in the city of Nashville.
There are two major industrial plants discharging
into the reservoirs which did not participate in the 1973
Survey, and nutrient loadings from them are not included
in the nutrient budgets on pages 21—24. The E. I. DuPont
plant, which impacts Old Hickory Reservoir, discharges
nitrogen-rich effluent; Stauffer Chemical in flashville
releases concentrated phosphate-rich effluent into Cheatham
Reservoir. In addition, there are several smaller unmeasured
industrial plants, such as Tennessee Co-op (fertilizer
plant) into Hurricane Creek (J. Percy Priest) and Ford
Glass Plant (Nashville) into Cheatham Reservoir, which
may add substantial nutrient loads to their respective
receiving waters. Additional study is needed on these
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4
unmeasured industrial plants to determine what impact
their discharges have on water quality in the Cumberland
River.
Loading calculations yield a net export of both
phosphorus and nitrogen from Old Hickory Reservoir and a
net export of phosphorus from Cheatham Reservoir, suggest-
ing that sampling for those lakes was not adequate to
accurately depict loading and export rates. These appar-
ent exports can be attributed to undetected and unmeasured
discharges reaching the lakes from unknown industrial
plants, to inadequate estimation procedures in determin-
ing the annual nutrient loadings from unsampled municipal
plants, or to sampling error. Nutrient loading to J.
Percy Reservoir was five times that proposed by Vollenweider
(1975) as a “eutrophic 11 loading. Although elimination of
the point sources impacting J. Percy Priest Reservoir
would not lower the loading rate to below Vollenweider’s
eutrophic level, it would cause a substantial reduction
in loading to the reservoir and likely result in gradual
water quality improvement in the lake. Any such improve-
ment would not be sudden, as the long hydraulic retention
time of J. Percy Priest will retain the nutrients at high
levels for a prolonged period.
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5
2. Nonpoint sources -
The mean annual phosphorus loads from nonpoint
sources were 97.6% of the total reaching Old Hickory
Reservoir, 73.3% of the total reaching J. Percy Priest
Reservoir, and 91.1% of the total load to Cheatham
Reservoir. The Tennessee Department of Public Health
(S. Fishel, pers. corn.) identifies the geology of the
J. Percy Priest and Cheatham Reservoir drainage areas as
a major source contributing phosphorus to each of the
impoundments. The two main tributaries draining this
phosphate-rich limestone area are the Harpeth River and
the Stones River; between them they contribute 30.0% of
the Cheatham Reservoir nonpoint phosphorus load.
On the basis of Survey data, it is very likely that
the trophic condition of these three lakes will continue
to deteriorate if the present loading rates impacting
them are maintained. These data suggest that reduction
of nonpoint phosphorus input must accompany total elim-
ination of known point sources if manifestations of
excessive nutrients are to be controlled or eliminated.
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6
II. LAKE AND DRAINAGE BASIN CHARACTERISTICS
Lake and drainage basin characteristics are itemized below.
Lake morphometry was provided by the Tennessee Department of
Public Health, Division of Water Quality Control; tributary flow
data were provided by the Tennessee District Office of the U.S.
Geological Survey (USGS). Outlet drainage areas include the
lake surface areas. Mean hydraulic retention times were obtained
by dividing each lake volume by the mean flow of the outlet.
Tributary drainage areas plus lake surface areas do not equal the
outlet drainage areas probably because of differences in the pool
elevations used by the different sources in their calculations.
Precipitation values were estimated by methods as outlined in
National Eutrophication Survey (NES) Working Paper No. 175. A
table of metric/English conversions is included as Appendix A.
A. Lake Morphometry:
Old J. Percy
Hickory Priest Cheatham
Reservoir Reservoir Reservoir
1. Surface area: 91.06 57.47 30.15 km 2 .
2. Mean depth: 5.6 8.5 4.3 meters.
3. Maximum depth: 17.6 30.5 13.1 meters.
4. Volume: 509.936 488.495 129.645 x 106 m 3 .
5. Mean hydraulic
retention time:
11 139
2 days.
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R. Tributary and Outlet (see Appendix B for flow data)
1 Tributaries —
Old Hickory Reservoir j. Percy Priest Reservoir Cheatham Reservoir
Drainage lic n flow Drainage Mean flow Drainage Mean flow
Name area(km 2 ) m /sec ) Name area(km ) ( m 3 /sec ) Name area(km ) ( m 3 /sec )
A(l) Cumberland River 27,687 1 473.15 A(l) East Fork Stones River 771.8 13.31 A(l) Cumberland River 30,233 1 518.95
B(l) Cedar Creek (western) 92.5 1.71 B(l) West Fork Stones River 650.1 10 54 6(1) Johnson Creek 57.8 0 73
C(l ) Spencer Creek 38 1 0.70 C(l ) Fall Creek 165.8 3.06 C(l ) Harpeth River 1,882.9 33.85
D(l) Bartons Creek 135.2 2.49 D(1) Suggs Creek 98.9 1.83 D(1) Overall Creek 20.9 0.25
E(l) Sprirg Creek 148.7 2.74 F(1) Hurricane Creek 59.8 0.84 E(l) Richiand Creek 73.0 0.92
F(l) Cedar Creek (eastern) 86.2 1.59 G(l) Stewart Creek 147.4 2.44 F(l) Browns Creek 40.7 0.43
6(1) Round Lick Creek 204.9 3.78 H(1) Harts Branch 28.5 0.47 6(1) Mill Creek 277 1 3.90
H(l) Peyton Creek 129 8 2.12 H(1) Stones River 2,419.1 42.10
J(1) Goose Creek 196.1 3.21 J(1) Mansker Creek 119.1 1 68
K(l) Little Goose Creek 75.9 1 24 K(1) Whites Creek 163.9 1.93
L(1) Bledsoe Creek 239 6 3 39 L(1) Big Marrowbone Creek 91.4 1.11
M(l) Torn Creek 23.7 0.33 M(1) Sycamore Creek 269.4 3.26
N(l) East Camp Creek 53 4 0 75 N(l) Spring Creek 47.7 0.58
P(1) Station Camp Creek 104.4 1.47
Q(1) Drakes Creek 89.1 1.26
Minor tributaries and Minor tributaries and Minor tributaries and
ininediate drainage - 844.3 13.76 immediate drainage - 336.7 5.76 imediate drainage - 960.9 15.40
Totals 30,149.0 513 69 Totals 2,259.0 38.25 Totals 36,657.0 625.09
2. Outlet -
A(2) Cumberland River 30,233.1 518.95 E(1) Stones River 2,310.3 40.58 A(2) Cumberlarid River 36,682.2 610 11
C Precipitation. (in centimeters)
Old Hickory Reservofr J. Percy Priest Reservoir Cheatham Reservoir
Year of sampling — 142 4 142.4 137.1
2 Mean annual - 112 0 112.0 117 3
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8
III. LAKE WATER QUALITY SUMMARY
Old Hickory, J. Percy Priest, and Cheatham Reservoirs
were sampled three times during the open-water season of 1973
by means of a pontoon-equipped Huey helicopter. Each time,
samples for physical and chemical parameters were collected
from five stations each on Old Hickory (with the exception
of sites 02 and 04, sampled in May and August only) and J. Percy
Priest Reservoirs, and two stations on Cheathani Reservoir, and
from one or more depths at each station (see maps, pages v-vu).
During each visit, depth-integrated samples were collected from
each station for chlorophyll a analysis and phytoplankton
identification and enumeration. During the first visit, 18.9-
liter depth-integrated samples were composited for algal assays.
Maximum depths (expressed in meters) sampled were as follows:
Old Hickory J. Percy Priest Cheatham
Reservoir Reservoir Reservoir
Station Station Station
Number Depth Number Depth Number Depth
1 23 1 23 1 11
2 21 2 19 2 9
3 18 3 23
4 18 4 17
5 14 5 12
For a more detailed explanation of NES methods, see NES Working
Paper No. 175.
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9
The results obtained are presented in full in Appendix C
and are summarized in 111-A for waters at the surface and at
the maximum depth for each site. Results of the phytoplankton
counts and chlorophyll a determinations are included in 111-B.
Results of the limiting nutrient study are presented in Il l-C.
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o N = NO. OF SAMPLES
°* MAXIMUM DEPTH SAMPLED AT EACH SITE
0*0 S = NO. 0F SITES SAMPLED ON THIS DATE
5/21/73
PHYjICAL AND CHEMICAL C ,A ACTE)QISTICS
8/16/73
N A A
2 DEPT 1 = 2 DEPTH
PANGE RANGE
RANGE MEDIAN (METERS) N° ‘ ANGE ME0I t J (METERS)
10/23/73
5000 j OEPTH
RANGE
CHEATHA’ RESERVOIR
STOREr CODE 4106
PARAMETER NO
TEMPERATURE (DEG CENT)
0.-1.5 M DEPTH 4
DEPTH ° 2
17.5— 24.0
17.5— 17.7
17.9
17.6
DISSOLVED OXYGEN (MG/U
O.1.5 M DEPTH 2
MAX DEPTH’ 2
9.4— 9.8
9.6— 9.8
9.6
9.7
CONDUCTIVITY (UMMOS)
C.-I.5 H DEPTh 4
tX DFPTH*0 2
165.— 175.
160.— 175.
173.
168.
PH (STAr OARO UNITS)
0.-I.5 H DEPTH 4
MAX DEPTH00 2
6.9— 7.8
7,4— 7.9
7.4
7.6
TOTAL ALKALINITY (MG/L)
0.-1.5 ‘ DEPTH 4
MAX DEPTH°• 2
52.— 59.
52.— 56.
55.
54.
TOTAL P (MG/L)
0.- 1.5 M DEPTH 4
MAX DEPTH°° 2
0.071—0.101
0.100—0.111
0.088
0.105
DISSOLVED ORTHO P (MG/L)
0.—1.5 H DEPTH 4
MAX DEPTH°° 2
0.030—0.040
0.028—0.034
0.033
0.031
N02 .N03 (MG/L)
O.-1.S N DEPTH 4
MAX DEPTH00 2
0.380—0.400
0.390—0.410
0.390
0.400
AMMONIA (MG/L)
O.-I.5 N DEPTH 4
MAX DEPTH04 2
0.060—0.070
0.060—0.060
0.060
0.060
KJELDAHL N (MG/L)
O.-1.5 H DEPTH 4
MAX DEPTi-I° 2
0.200—0.500
0.400—0.400
0.400
0.400
SECCMI DISC (METERS)
‘)
0000000000
00*0*
0.0—
9.1—
1.2—
9.1—
0.0—
9.1-
0.0—
9.1—
0.0—
9.1—
0.0—
9.1—
0.0—
9.1—
0.0—
9.1-
0.0—
9.1-
0.0—
9.1—
1.2
9.4
1.2
9.4
1.2
9.4
1.2
9.4
1.2
9.4
1.2
9.4
1.2
9.4
1.2
9.4
1.2
9.4
1.2
9.4
4
26.6— 28.0
26.5
0.0— 1.5
2
29.6— 33.0
31.3
0.0— 1.5
2
24.5— 25.0
24.8
7.3— 10.7
1
29.6— 29.6
29.b
10.4— 10.4
2
5.6— 6.6
6,1
1.5— 1.5
0
00000 00000
*000*
0000._00000
2
5.8— 6.4
6.1
7.3— 10.7
1
5.8— 5.8
5.8
10.4— 10.4
4
170.— 180.
175.
0.0— 1.5
2
169.— 173.
171.
0.0— 1.5
2
170.— 178.
174.
7.3— 10.7
1
171.— 171.
4
7.3— 7.7
7.4
0.0— 1.5
2
7.4 7.4
2
7.2— 7.3
7.2
7.3— 10.7
1
7.3— 7.3
4
57.— 63.
61.
0.0— 1.5
2
58.— 59.
2
59.— 62.
61.
7.3— 10.7
1
61.— 61.
6
0.143—0.203
0.179
0.0— 1.5
2
0.158—0.16b
2
0.185—0.240
0.212
7.3— 10.7
1
0.124—0.124
4
0.085—0.131
0.107
0.0— 1.5
2
0.086—0.093
2
0.084—0.101
0.092
7.3— 10.7
1
0.077—0.077
4
0,290—0.320
0.305
0.0— 1.5
2
0.370—0.380
2
0.280—0.320
0.300
7.3— 10.7
1
0.360—0.360
4
0.110—0.190
0.145
0.0— 1.5
2
0.160—0.160
2
0.110—0.170
0.140
7.3— 10.7
1
0.160—0.160
4
0.200—0.800
0.300
0.0— 1.5
2
0.300—0.900
2
0.300—0.300
0.300
7.3— 10.7
1
0.300—0.300
0
0
171.
10.4—
10.4
7.4
0.0—
1.5
7.3
10.4—
10.4
59.
0.0—
1.5
61.
10.4—
10.4
0.161
0.0—
1.5
0.124
10.4—
10.4
0.089
0.0—
1.5
0.077
10.4—
10.4
0.375
0.0—
1.5
0.360
10.4—
10.4
0.160
0.0—
1.5
0.160
10.4—
10.4
0.600
0.0—
1.5
0.300
10.4—
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* N = NO. OF SAMPLES
*0 MAXIMUM DEPTH S4MPLEO AT EACH SITE
*0* S = NO. OF SITES SAMPLED ON THIS DATE
PHYSICAL AI’ D CHEMICAL
(
5/22/73 )
MAX
( 8/16/7’
o.o = 5
DEPTH
RANGE
= S
RANGE
MAX
DEI ’Ti-4
JLO ‘1iCr J Y
ST RET CoDE 4720
10/22/73
MAX
DEPTH
S• ’° = 3
kANGE
MEDIAN
(METERS)
PARAMET .R N ’
N*
TEMPERATURE (DEG CENT)
6
19.7— 39.0 28.6
0.0— 1.5
DEPTH 10
15.3— 30.0
17.6
0.0— 1.2
10
24.8— 40.0
3
19.2 20.0 19.7
12.2— 19.8
HAX DEPTrI°° 5
15.2— 16.9
16.4
9.1— 19.5
5
21.8 22.5
DISSOLVED OXYGEN (MG/L)
3
7.2— 10.0 7.6
1.5— 1.5
0.-1.5 H oEPr i 5
10.0— 10.2
10.2
1.2— 1.2
5
8.8— 12.2
3
7.2— 7.4 7.2
12.2— 19.8
MAX DEPTH” 5
9.8— 10.2
10.0
9.1— 19.5
5
6.2— 7.4
CONDUCTIVITY (LJMêIOS)
6
128.— 137. 131.
0.0— 1.5
0.—1.5 H DEPTH 10
MAX DEPTH” 5
1S5.— 160.
155.— 165.
160.
160.
0.0— 1.2
9.1— 19.5
10
5
144.— 160.
136.— 144.
3
123.— 133. 127.
12.2— 19.8
PH (STANDARD UNITS)
6
7.4— 8.6 7.5
0.0— 1.5
0.—1.S 14 DEPTH 10
7.7- 8.4
7.8
0.0— 1.2
10
7.0— 8.6
3
7.2— 7.6 7.3
12.2— 19.8
MAX DEPTH’° 5
7.7— 7,8
7.7
9.1— 19.5
5
6.9— 7.3
TOTAL ALKALINITY (MG/L)
45.— 53. 47.
0.0— 1.5
0.—1.S 14 DEPTH 10
31.— 70.
55.
0.0— 1.2
10
50.— 55.
3
46.— 50. 47.
12.2— 19.8
MAX DEPTH” 5
45.— 64.
58.
9.1— 19.5
5
53.— 56.
TOTAL P (MG/L)
0.052—0.104 0.062
0.0— 1.5
C.—1.5 M DEPTH 10
MAX DEPTH” 5
0.041—0.073
0.0410.105
0.051
0.058
0.0— 1.2
9.1— 19.5
10
5
0.033—0.083
0.074—0.124
3
0.060—0.120 0.085
12.2— 19.8
DISSOLVED ORTiIO P (P4G/L)
0.—1.5 14 DEPTH 10
0.014—0.018
0.015
0.0— 1.2
10
0.006—0.022
6
3
0.014—0.032 0.019
0.016—0.036 0.020
0.0— 1.5
12.2— 19.8
MAX DEPTI-I” 5
0.015—0.036
0.024
9.1— 19.5
5
0.019—0.055
M02•N03 (M(,/L)
6
0.210—0.240 0.225
0.0— 1.5
O.—1.5 M DEPTH 10
0.190—0.340
0.315
0.0— 1.2
10
0.060—0.360
0.240
12.2— 19.8
MAX DEPTH” 5
0.310—0.580
0.330
9.1— 19.5
5
0.300—0.360
3
AMMONIA (MG/L)
6
0.030—0.060 0.050
0.0— 1.5
0.—1.5 14 DEPTH 10
MAX DEPTH” S
0.030—0.040
0.020—0.040
0.035
0.030
0.0— 1.2
9.1— 19.5
10
5
0.050—0.090
0.060—0.130
3
0.050—0.070 0.060
12.2— 19.8
KJELDAHL N (MG/L)
0.1.5 I DEPTrI 10
0.200—0.400
0.200
0.0— 1.2
10
0.200-1.000
6
0.200—0.600 0.350
0.200—0.200 0.200
0.0— 1.5
12.2— 19.8
MAX DEPTI-)” 5
0.200—0.300
0.200
9.1— 19.5
5
0.300—0.600
s CCFiI DISC (METERS)
0
00000
0
00000
0
21.9
9.8
7.0
151.
136.
8e2
7.2
53.
54.
0 .‘)56
0 . 102
0.015
0.028
0.085
0.340
0.070
0.100
0.600
0.0—
14. 3—
1.5-
14.3-
0.0—
14 • 3—
0.0—
14.3—
0.0—
14.3—
0.0—
14.3—
0.0—
14.3—
0.0—
14.3—
0.0—
14.3—
0.0—
14.3—
1.5
22.9
1.5
22.9
1.5
22.9
1.5
22.9
1.5
22.9
1.5
22.9
1.5
22 • 9
1.5
22.9
1.5
22.9
1.5
22.9
-------�
MAX MAX
500Q = 5 0E TH S0* 5 J PT -i
RANGE RANGE
PARAMETER N° RANGE MEDIA..I (METERS) N RANGE MEDIAN (METERS)
* N = NO. OF SAMPLES
** MAXIMUM DEPTH SAMPLED AT EACH SITE
• S = NO. OF SITES SAMPLED ON THIS 041€
J. PERCY PRIEST RESERVOI
STORET CODE ‘4723 PHYSICAL AND CHEMICAL CriARACTERISTICS
5/21/73 ) ( 8/16/73
10/24/74
MAA
S DEPTH
RANGE
RANGE ‘4EOLAN (METERS)
TEMPER.%TURE (DEG CENT)
P4 DEPTH 10
MAX DEPTH ° 5
19.9— 78.0
15.1— 18.8
27.5
16.6
0.0— 1.2
7.6— 20.7
10
5
27.0—108.0
16.2— 21.0
32.5
17.7
0.0— 1.5
12.2— 22.9
10
5
19.1— 96.0
17.5— 19.
28.5
18.8
0.0— 1.5
7.9— 20.7
DISSOLVED OXYGEN (MG/L)
0.—1.5 M DEPTH 5
MAX DEPTH 5
8.6— 11.6
0.8— 6.0
10.2
2.2
1.2— 1.2
7.6— 20.7
5
5
4.7— 10.6
0.0— 1.0
7.6
0.2
1.5— 1.5
12.2— 22.9
4
5
5.8— 8.0
0.0— 8.0
7.0
0.1
1.5— 1.5
7.9— 20.7
CONDUCTIVITY (UMHOS)
0.—1.5 N DEPTH 10
MAX DEPTH°° 5
260.— 300.
280.— 340.
290.
300.
0.0— 1.2
7.6— 20.7
10
5
208.— 249.
251.— 344.
217.
302.
0.0— 1.5
12.2— 22.
10
5
212.— 261.
267.— 365.
222.
254.
0.0— 1.5
7.9— 20.7
PH (STANDARD UNITS)
0.—1.5 N DEPTH 10
MAX DEPTH*O 5
8.2— 8.6
7.4— 7.7
8.5
7.6
0.0— 1.2
7.6— 20.7
10
5
7.7— 8.3
6.7— 7.4
8.0
7.2
0.0— 1.5
12.2— 22.9
10
5
7.5— 8.0
7.1— 8.1
7.8
7.2
0.0— 1.5
7.9— 20.7
TOTAL ALKALINITY (MG/L)
0.—1.5 H DEPTH 10
MAX DEPIH°° 5
121.— 146.
128.— 160.
138.
146.
0.0— 1.2
7.6— 20.7
10
5
92.— 115.
148.— 199.
100.
164.
0.0— 1.5
12.2— 22.9
10
5
103.— 135.
130.— 208.
us.
138.
0.0— 1.5 —
7.9— 20.7
TOTAL P (MG/L)
0.—I.5 N DEPTH 10
MAX DEPTH° 5
0.028—0.056
0.093—0.150
0.042
0.099
0.0— 1.2
7.6— 20.7
10
5
0.020—0.083
0.171—0.500
0.033
0.211
0.0— 1.5
12.2— 22.9
10
5
0.018—0.090
0.069—0.666
0.032
0.090
0.0— 1.5
7.9— 20.7
DISSOLVED ORTHO P (MG/L)
0.—1.S H DEPTH 10
MAX DEPTH ° 5
0.002—0.018
0.043—0.065
0.006
0.048
0.0— 1.2
7.6— 20.7
10
5
0.006—0.024
0.021—0.052
0.012
0.034
0.0— 1.5
12.2— 22.9
10
5
0.007—0.037
0.021—0.037
0.014
0.029
0.0— 1.5
7.9— 20.7
N02 .N03 (MG/L)
0.—1.S H DEPTH 10
MAX DEPTHOO 5
0.030—0.070
0.270—0.510
0.040
0.380
0.0— 1.2
7.6— 20.7
10
5
0.050—0.110
0.080—0.270
0.065
0.130
0.0— 1.5
12.2— 22.9
10
5
0.020—0.030
0.020—0.040
0.030
0.020
0.0— 1.5
7.9— 20.7
AMMONIA (MG/L)
0.—1.5 N DEPTH 10
MAX DEPTH** 5
0.030—0.040
0.080—0.300
0.040
0.170
0.0— 1.2
7.6— 20.7
10
5
0.050—0.110
0.280—1.700
0.080
1.350
0.0— 1.5
12.2— 22.9
10
5
0.040—0.060
0.040—1.260
0.050
1.140
0.0— 1.5
7.9— 20.7
KJELDAHL N (MG/U
0.—I.5 H DEPTH 10
MAX DEPTH** 5
0.300—0.800
0.300—0.600
0.500
0.400
0.0— 1.2
7.6— 20.7
10
5
0.400—1.200
1.000—3.200
0.700
1.800
0.0— 1.5
12.2— 22.9
10
5
0.300—0.700
0.500—3.300
0.450
1.600
0.0— 1.5
7.9— 20.7
SECCHI DISC (METERS)
0
0000*—*****
a****
0
***** *****
*****
****—***o*
0*00*
-------�
Sampling Dominant
Date Genera
05/22/73 1. Melosira
2. Flagellates
3. Cyclotella
4. Stephanodiscus
5. Dinoflagellates
Other genera
Total
08/16/73 1. Melosira
2. Flagellates
3. Stephanodiscus
4. Raphidiopsis
5. Cyclotella
Other genera
Total
10/22/73 1. Meloslra
2. Flagellates
3. Cryptomonas
4. Dactylococcopsis
5. Cyclotella
Other genera
Total
08/16/73 1. Flagellates
2. Achnanthes
3. Lyngbya
4. Stephanodiscus
5. Raphidiopsis
Other genera
Total
10/24/73 1 Dactylococcopsis
2. Flagellates
3. Melosira
4. Stephanodiscus
5. Synedra
Other genera
Total
Algal
Units
per ml
1 ,808
1,173
869
69
28
98
4,045
2,479
436
367
279
140
1 ,062
4,763
4,268
1 ,498
174
1 74
155
397
6,666
B Biological Characteristics
1
Phytoplankton
-
Old
Hickory Reservoir J. Percy Priest Reservoir Cheathani Reservoir
Sampling
Date
05/21/73
Sampling
Date
05/21/ 73
Dominant
Genera
1 Melosira
2 Flagellates
3. Stephanodiscus
4. Asterionella
5. Oscillatorla
Other genera
Total
Dorni nant
Genera
1. Melosira
2. Stephanodiscus
3. Flagellates
4. Nitzschia
5. Dactylococcopsis
Other genera
Total
Algal
Units
per ml
733
391
134
110
37
132
1 ,537
5,466
1 ,52O
1 ,261
582
420
1 ,584
10,833
4,523
1 ,455
364
318
250
1 ,004
7,gl4
Algal
Units
per ml
2,653
1 ,992
1 ,31 1
200
120
390
6,666
771
363
249
227
204
615
2,429
2,708
2,106
1 ,228
802
551
1 ,6O2
8,997
08/16/73 1. Melosira
2. Flagellates
3. Stephanodiscus
4. Blue-green filament
5. Nitzschia
Other genera
Total
10/23/73 1. Melosira
2. Flagellates
3. Cyclotella
4 Dactylococcopsis
5. Scenedesmus
Other genera
Total
-------�
14
J. Percy Priest Reservoir
Sampling Station Chlorophyll a
____________ Date Number ( jg/l )
05/21/73 1 10 4
2 13.3
3 13.5
4 12.9
5 22.7
08/16/73 1 6.3
2 5.5
3 5.7
4 9.0
5 10.2
10/24/73 1 3.8
2 3.7
3 6.7
4 136
5 12.6
tered, and nutrient spiked -
Old Hickory Reservoir
Inorganic N Maximum Yield
__________ Conc.(mg/l) ( mg/l-dry wt. )
0.376 3.8
0.376 7.5
1.376 18.3
1.376 3.6
08/16/73 1 6.0
2 10.2
Cheatham Reservoir
Jnorganic N Maximum Yield
___________ Conc.(mg/i) ( mg/i-dry wt. )
O 510 8.8
0.510 12.3
1.510 28.1
1.510 12.5
2 Chlorophyll a -
- Old Hickory Reservoir
Sampling Station Chlorophyll a
Date Number ( pgf 1 )
05/22/73 1 8.1
2 9.4
3 5.9
4 33
5 2.9
08/l /73 1 24.0
2 11.1
3 8.4
4 12.7
5 5.7
10/22/73 1 16 8
2
3 5.6
4
5 22
C Liinitinq Nutrient Study
I. Autoclaved, fil
Cheatham Reservoir
Sampling Station Chlorophyll a
Date Number ( gfl )
05/21/73 1 4.5
2 8.6
10/23/73 1 11.5
pi ke(mg/1 )
Control
0.05 P
O ( P + 1 0 N
1 00 N
Ortho P
Conc. (mg/i )
0.016
0.066
0.066
0 016
Ortho P
Conc. (mg/i )
Missing
Missing
Missing
Missing
-------�
15
2. Discussion —
The control yields of the assay alga, Selenastrum capri-
cornutum , indicate that the potential for primary production
in Old Hickory and Cheatham Reservoirs was high at the time
of sampling. With the Old Hickory sample, increased growth
resulted from the addition of orthophosphorus alone, but not
with the addition of nitrogen alone, indicating phosphorus
limitation. The Cheatham Reservoir sample showed increased
growth with the exclusive addition of either orthophosphorus
or nitrogen, indicating colimitation by nitrogen and phos-
phorus. For both samples, the simultaneous addition of
orthophosphorus and nitrogen resulted in the greatest growth.
The mean lake N/P ratios of 19/1 for Old Hickory Reservoir
and 14/1 for Cheatham Reservoir, measured at the time of
sampling, are not inconsistent with the assa , findings. In
general, an N/P ratio of 14/1 or more is indicative of phos-
phorus limitation. Subsequent mean lake N/P ratios measured
in August and October (14/1 and 12/1 for Old Hickory Reservoir;
4/1 and 6/1 for Cheatham Reservoir) suggest increased impor-
tance of nitrogen as a controlling nutrient through the summer
and fall.
The assay for J. Percy Priest Reservoir was invalidated
by substantial changes in sample nutrient concentrations prior
to the test. Mean lake N/P ratios of 11/1, 16/1, and 13/1
-------�
16
observed in May, August, and October, respectively, suggest
the likelihood that nitrogen and phosphorus share the limit-
ing nutrient role in this reservoir.
-------�
17
IV. NUTRIENT LOADINGS
(See Appendix 0 for data)
For the determination of nutrient loadings, the Tennessee
National Guard collected monthly near-surface grab samples from
each of the tributary sites indicated on the maps (pages i-ill),
except for the high runoff months of February and March for Old
Hickory Reservoir and February for J. Percy Priest and Cheatham
Reservoirs when two samples were collected. Sampling was begun
in April 1973, and was completed in March 1974.
Through an interagency agreement, stream flow estimates
for the year of sampling and a “normalized” or average year
were provided by the Tennessee District Office of the USGS for
the tributary sites nearest each lake.
In this report, nutrient loads for sampled tributaries,
except Bartons Creek and Town Creek (Old Hickory Reservoir),
were determined by using a modification of a USGS computer
program for calculating stream loadings. Nutrient loads
indicated for tributaries are those measured minus known point
source loads, if any.
Nutrient loadings for unsampled “minor tributaries and
immediate drainage” ( 1 ’ZZ” of USGS) were estimated by using the
mean annual nutrient loads, in kg/km 2 /yr, for Spencer Creek,
Spring Creek, Cedar Creek (eastern), Goose Creek, and Station
Camp Creek at Stations C(l), E(l), F(l), J(l), and P(l),
respectively, on Old Hickory Reservoir; in Fall Creek and Suggs
Creek at Stations C(1) and 0(1), respectively, on J. Percy
-------�
18
Priest Reservoir; and in Johnson Creek, Overall Creek, Big
Marrowbone Creek, and Spring Creek at Stations 8(1), D(l), L(l),
and N(l), respectively, on Cheathani Reservoir; and by multiplying
the means by “ZZ” area in km 2 . Nutrient loads for Bartons Creek
and Town Creek (Stations 472ODl and 472OMl) were estimated by
multiplying the drainage areas at those sites (in km 2 ) times the
mean annual nutrient loads for tributaries C(l), E(1), F(l), J(l),
and P(l) entering Old Hickory Reservoir.
The operators of the Hendersonvil]e, Hartsville, La Vergne,
Murfreesboro (Lytle Creek and Sinking Creek), Smyrna (#1 and #2),
Nashville (Smith Spring, Hurricane Creek, Central, Dry Creek,
Hermitage Hills, and Scotts Hollow), Ashland City, Old Hickory,
and Parkwood Company wastewater treatment plants provided monthly
effluent samples and corresponding flow data. Nutrient loads for
the Gallatin, Watertown, Lebanon, Carthage, Smyrna, Woodbury,
Twin Valley Estates, Dickson, White Bluff, Clover Bottom Develop-
ment Center, and Donelson Plaza Shopping Center wastewater plants
were estimated at 1.134 kg P and 3.401 kg N/capita/yr.
Nutrient loadings for the Nashville-Whites Creek plant are
not included in this report since the plant did not become opera-
tional until January 1975.
Loadings for the Cedars of Lebanon State Park were calculated
at a population of 14,370 during the 3 summer months. All schools
were estimated at 0.567 kg P and 1.701 kg N/capita/yr. (Covers
180 days).
-------�
A Waste Sources
1 Known municipal —
Name
Old Hickory Reservoir
Hendersonville
Hartsvi lie
Gallatin
Watertown
Lebanon
Carthage
Lakeview Elementary School
Mt. Juliet High School
Southside Elementary School
W. Wilson Elementary School
J. Percy Priest Reservoir
Murfreesboro (Lytle Creek)TT
Murfreesboro (Sinking Creek)
La Vergne
Smyrna (#1 and #2)
Smyrna (Old Air Force Base)
Woodbury
Population
Served*
2.100
2,200
10,000
I .300
7,600
2,000
941
980
511
309
27,900
9,120
408
6,934
10,000
1 .750
2
3.
2.
4
3.
3.
3.
3.
2.
5.
1.
2
2.
2
Me n flow
( m /d x 103 )
2.413
0.464
3.785-i
O 492 T
2.877-1-
0.757*
0.3561-
0.371*
0.193*
0.117*
10.694
5 101
0.088
1.716
3.785+
0.662*
Receiving
Water
Drakes Creek
Little Goose Creek
Town Creek
Round Lick Creek
Bartons Creek
Cumberland River
Smith Creek
Cedar Creek (western)
Sinking Creek
Cedar Creek (western)
*plant ooerators U.S 3 EPA (1971) and/or Tennessee Department of Public Health (1975)
i-Estimated at 0.3785 ni /capita/day.
1-1-50% of material treated at this plant consists of metal plating and dairy wastes.
Treatment*
Key: 1
2.
3.
4.
5.
West Fork Stones River
West Fork Stones River
Hurricane Creek
Harts Branch/Stewart Creek
Stewart Creek
East Fork Stones River
Activated sludge
Trickling filter
Extended aeration
Primary
Mi crostrai ner
-------�
A Waste So irces (continued)
1e n flow Receiving
__________ Treatment* ( rn /d x 103) Water
3,170 1 1.781 Cheathain Reservoir
190,000 1 177.195 Cheatham Reservoir
40,440 1. 10.467 Cheatham Reservoir
10,591 1 2 719 Cheatham eservo1r
6,923 2 1.845 Ewing Creek/Whites Creek
6,000 2 2.130 Stones River
2,150 2. 0 530 Stones River
48,300 5 10 282 Cheatham Reservoir
9,683 1. 2.178 East Fork Hamilton Creek
2,900 3. 1.0981- Jones Creek/Harpeth River
800 3. 0.3031- Buck Springs Branch/Trace Creek/
Harpeth River
1 ,239 3 0.4691- Sycamore Creek
707 3 0.2681- Blue Spring Creek
3,200 2 1.2111- Stones River
1,200 3. 0.4541- Stones River
1,320 3. 0.500t Earthman Fork Creek/Whites Creek
584 3 0.22 1i- Caney Fork Creek/Harpeth River
567 3. 0. 2 l5T Caney Fork Creek/Harpeth River
1,323 3. 0.5011- Stoners Creek/Stones River
700 3 0.265- i- Mansker Creek/Cumberland River
Old Hickory Reservoir
E. 1. Dupont Textile 1
fiber
J Percy Priest Reservoir
rlashv ifle (Hurricane Creek ) Tire manu- 1. Hurricane Creek embayment of
facturing and J. Percy Priest Reservoir
others
Cheatham Reservoir - none
Key. 1. Activated sludge
2. Tricklina filter
3. Extended aeration
4. Primary
5. Microstrainer
*plant operators; U.S. EPI\ (1971) and/or Tennessee Denartrnent of Public Health (1975)
i-Estimated at 0 3785 m 3 /capi ta/day
Population
Served*
1 Known municipal -
Marie
Cheathar’i Reservoir
Ashland City
Nashville (Main Plant)
Nashville (Dry Creek Plant)
Old Hickory
Parkwood Service Co.
Nashville (Hermitage Hills)
Nashville (Scotts Hollow)
Nashville (Whites Creek)
Nashville (Smith Spring Plant)
Dickson
White Bluff
Central High School
East Cheatham Elementary School
Clover Bottom Development Center
Donelson Plaza Shopping Center
Joelton Elementary School
Fairview Elementary School
Fairview High School
Mt. Juliet Elementary and
Junior High School
Twin Valley Estates
2. Known industrial
Name
Product* Treatnrent*
Mean flow
( r 3 /c1 x lOs )
94. 625
2. 588
Receivtng
a ter
Cumberland River
-------�
21
B. Annual Total Phosphorus Loading — Average Year
1. Inputs —
Old Hickory Reservoir J. Percy Priest Reservoir
%of %of
Source kg P/yr total Source kg P/yr total
a. Tributaries (nonpoint load) - Tributaries (nonpoint load) -
A(1) Cumberland River 1,052,750 77.5 A(l) East Fork Stones River 64,460 23.6
8(1) Cedar Creek (western) 7,090 0.5 B(1) West Fork Stones River 103,005 37.8
C(l) Spencer Creek 3,205 0.2 C(l) Fall Creek 4,410 1.6
D(l) Bartons Creek 14,195 1 0 D(l) Suggs Creek 1,835 0.7
E(l) Spring Creek 22,090 1.6 F(l) Hurricane Creek 3,375 1.2
F(1) Cedar Creek (eastern) 8,240 0.6 G(l) Stewart Creek 10,835 4.0
G(l) Round Lick Creek 19,510 1.4 H(l) Harts Branch 2,570 0 9
H(l) Peyton Creek 22,675 1.7
J(l) Goose Creek 21,265 1.6
K(l) Little Goose Creek 9,250 0.7
1(1) Bledsoe Creek 24,645 1.8
M(l) Town Creek 2,490 0.2
N(l) East Camp Creek 7,505 0.6
P(l) Station Camp Creek 9,370 0.7
Q(l) Drakes Creek 10,000 0.7
b Minor tributaries and uninedi- Minor tributaries and immedi-
ate drainage (nonpoint load) - 88,650 6.5 ate drainage (nonpoint load) — 7,745 2.8
c. Known municipal SIP’s - Known municipal SIP’s —
Hendersonville 7,005 0.5 Murfreesboro (Lytle Creek) 39.450 14.5
Hartsvi lle 2,235 0.2 Murfreesboro (Sinking Creek) 11.855 4.3
Gallatin 11,340 0.8 La Vergne 140 0.1
Watertown 1,475 0.1 Smyrna (#1 and #2) 7,950 2.9
Lebanon 8,620 0.6 Smyrna (Old Air Force Base Plant) 11,340 4.2
Carthage 2,270 0.2 Woodbury 1,985 0.7
Lakevuew Elementary School 535 <0.1
Mt Juliet High School 555 <0.1
Southside Elementary School 290 <0.1
W. Wilson Elementary School 175 <0.1
ii Septic tanks* — 80 <0.1 Septic tanks* — 30 <0 1
e Known industrial - Known industrial
E I Dupont (see page 2) Nashville (Hurricane Creek Plant) 825 0 3
f Direct preclpitation** - j 95 0.1 Direct preclpitation** - 1,005 0.4
Totals 1,359,105 100.0 Totals 272,815 100.0
2 Output - A(2) Cumberland River 1,497,710 E(1) Stones River 244,995
3 Net annual P export - 138,605 flet annual P accumulation - 27,820
* [ st1Il tc based on 248 lakeside residences, 4 parks, 2 camps for Old Hickory; 100 lakeside residences,
1 camp and 1 park for J Percy Priest Reservoir.
**Esti ted (see Working Paper iso. 175)
***Exports probably due to unknown nutrient sources and/or nonrepresentative sampling.
-------�
22
B Annual Total Phosphorus Loading - Average Year (continued):
1 Inputs -
Cheatham Reservoir
% of
Source kg P/yr total
a. Tributaries (nonpoint load) —
A(1) Cumberland River 1,745,805 54.9
B(l) Johnson Creek 445 <0.1
C(1) Harpeth River 503,660 15 3
D(l) Overall Creek 2,940 0.1
E(l) Richland Creek 11,120 0.3
F(l) Browns Creek 8,860 0.3
G(l) Mill Creek 85,020 2.7
H(l) Stones River 445,135 14 0
J(l) Mansker Creek 11,060 0.3
K(1) Whites Creek 35,545 1.1
L(l) Big Marrowbone Creek 725 <0.1
M(l) Sycamore Creek 1,945 0.1
N(l) Spring Creek 390 <0.1
b Minor tributaries and iimiediate
drainage (nonpoint load) - 39,395 1.2
c Known municipal SIPs -
Ashland City 6,290 0.2
Nashville (Main Plant) 200,245 6.3
Nashville (Dry Creek Plant) 34,445 1.1
Old Hickory 6,650 0 2
Parkwood Service Co 6,355 0 2
Nashville (Hermitage Hills) 8,655 0 3
Nashville (Scotts Hollow) 1,840 0.1
Nashville (Smith Spring Plant) 8,975 0 3
Dickson 3,290 0.1
White Bluff 905 <0.1
Central High School 705 <0 1
East Cheatham Elementary School 400 <0.1
Clover Bottom Development Center 3,630 0 1
Donelson Plaza Shopping Center 1,360 <0.1
Joelton Elementary and High School 750 <0.1
Fairview Elementary School 330 <0.1
Fairview High School 320 <0.1
Mt. Juliet Elementary and Junior
High School 750 <0.1
Twin Valley Estates 795 <0.1
d Septic tanks* - 60 <0 1
e. Know industrial - none
f Direct precipitation** — 530 < 0.1
Totals 3,179,325 100.0
2 Output - A(2) Cumberland River 4,466,890
3. Net annual P export*** - 1,287,565
Estiinate based on 214 lakeside residences for Cheatham Reservoir.
**Estimated (see Working Paper No. 175)
***Exports probably due to unknown nutrient sources and/or nonrepresentative sampling.
-------�
23
C Annual Total Nitrogen Loading - Average Year
1 Inputs —
Old Hickory Reservoir
J. Percy Priest Reservoir
Source
a Tributaries (nonpoint load) -
A( I
B(l
C( 1
0(1
E(l
F(l
0(1
H(l
J(1
K(1
L(1
M(1
N(1
P(1
Q(1
% of
kg N/yr total
Source
Tributaries (nonpoint load) -
% of
kg ri/yr total
b Miiior tributaries and imniedi-
ate drainage (nonpoint load) -
c Known nunicipal STP’s -
Minor tributaries and inuiiedi-
539,510 3 2 ate drainage (nonpoint load) -
Known nbnicipal STP’s —
118,520 7.6
d Septic tanks* -
e Known industrial -
E I Dupont (see page 2)
2,925 <0 1 Septic tanks* -
Known industrial —
1,170 0.1
I Direct preclpltation** -
Totals
98,310 0.6
16,977,060 100 0
Direct prec,pitatlon** -
Totals
62,045 4.0
1,567,585 100.0
Net annual accumulation -
*istllliate based on 248 lakeside residences, 4 parks, 2 camps for Old Hickory Reservoir; 100 lakeside
residences, I camp and 1 state park for J Percy Priest Reservoir.
**Cstiiiiated (see Workinq Paper rIo. 175).
k**Lxportc probably due to unknown nutrient sources and/or nonrepresentative sampling
Cumberland River
15,141,740
89.2
A(l)
East Fork Stones
River
546,760
34.9
Cedar Creek (western)
44,490
0.3
B(1)
West Fork Stones
River
517,735
33.0
Spencer Creek
21,945
0 1
C(1)
Fall Creek
63,850
4 1
Bartons Creek
86,395
0.5
0(1)
Suggs Creek
31,655
2.0
Spring Creek
90,515
0.5
F(1)
Hurricane Creek
19,885
1.3
Cedar Creek (eastern)
64,185
0 4
G(1)
Stewart Creek
71,485
4.6
Round Lick Creek
183,760
1.1
H(l)
Harts Branch
11,225
0.7
Peyton Creek
104,785
0 6
Goose Creek
140,660
0.8
Little Goose Creek
49,715
0.3
Bledsoe Creek
137,830
0.8
Town Creek
15,145
0.1
East Camp Creek
49,710
0 3
Station Camp Creek
57,385
0.3
Drakes Creek
61,235
0 4
Hendersonvi lle
7,600
<0.1
Murfreesboro
(Lytle
Creek)
45,070
2.9
Hartsvi lle
3,480
<0 1
Murfreesboro (Sinking
Creek)
25,775
1.6
Gallatin
34,010
0.2
La Vergne
260
<0.1
Watertown
4,420
<0 1
Smyrna (#1 and
2)
10,270
0.7
Lebanon
25,850
0.2
Smyrna (Old Air
Force
Base
Plant)
34,010
2.2
Carthage
6,800
<0.1
Woodbury
5,950
0.4
Lakeview Elementary School
1 ,600
<0 1
Mt. Juliet High School
1,665
<0.1
Southside Elementary School
870
<0.1
W. Wilson Elementary School
525
<0 1
2 Output - A(2) Cumberland River
3. Net annual iN export*** -
Nashville (Hurricane Creek Plant) 1,920 0.1
18,096,625
1,119,565
Output - E(l) Stones River
1 ,485,790
81,795
-------�
24
C. Annual Total Nitrogen Loading - Average Year (continued)
Inputs —
Cheatham Reservoir
0I
,0 0
Source kg N/yr total
a Tributaries (nonpoint load) -
A(l) Cumberland River 16,778,530 77.0
B(l) Johnson Creek 18,620 0 1
C(l) Harpeth River 1,275,675 5 9
0(1) Overall Creek 8,085 <0.1
E(l) Richland Creek 36,355 0.2
F(l) Browns Creek 40,860 0.2
8(1) Mill Creek 217,910 1.0
ii(i) Stones River 1,912,800 8.8
J(l) Flansker Creek 58,285 0.3
K(l) Whites Creek 75,230 0 3
L(1) Big Marrowbone Creek 23,300 0.1
M(l) Sycamore Creek 90,870 0.4
N(l) Spring Creek 24,910 0.1
b Minor tributaries and irniedi-
ate drainage (nonpoint load) - 356,495 1 6
c Known municipal SIP ’s -
Ashland City 9,985 0.1
Nashville (Main Plant) 685,585 3.2
Nashville (Dry Creek Plant) 46,240 0 2
Old Hickory 14,100 0.1
Parkwood Service Co. 5,470 <0.1
Nashville (Hermitage Hills) 15,025 0.1
Nashville (Scotts Hollow) 3,095 <0.1
Nashville (Smith Spring Plant) 13,115 0 1
Dickson 9,865 <0.1
White Bluff 2,720 <0.1
Central High School 2,105 <0.1
East Cheatham Elementary School 1,200 <0.1
Clover Bottom Development Center 10,885 0 1
Donelson Plaza Shopping Center 4,080 <0.1
Joelton Elementary and High School 2,245 <0.1
Fairview Elementary School 995 ‘0.1
Fairview High School 965 <0.1
Mt Juliet Elenientary and Junior
High School 2,250 <0.1
Twin Valley Estates 2,380 <0.1
d Septic tanks* - 2,280 0.l
e. Known industrial — none
f Direct precip ltation** - 32,550 02
Totals 21,785,060 100.0
2 Output - A(2) Cumberland River 17,655,215
3 Net annual N accumulation — 4,129,845
*Estilnate based on 214 lakeside residences for Cheathani Reservoir
**Estimated (see Working Paper No 175)
-------�
25
0. Mean Annual Nonpoint Nutrient Export by Subdrainage Area:
Tributary kg P/km 2 /yr kg N/km 2 /yr
Old Hickory Reservoir
A(l) Cumberland River 38 547
B(l) Cedar Creek (western) 77 48]
C(l) Spencer Creek 84 576
D(l) Bartons Creek 105 639
E(l) Spring Creek 149 609
F(l) Cedar Creek (eastern) 96 745
G(l) Round Lick Creek 95 897
H(l) Peyton Creek 175 807
J(l) Goose Creek 108 717
K(l) Little Goose Creek 122 655
L(l) Bledsoe Creek 103 575
M(l) Town Creek 105 639
N(l) Eastern Camp Creek 141 931
P(i) Station Camp Creek 90 550
Q(l) Drakes Creek 112 687
J. Percy Priest Reservoir
A(1) East Fork Stones River 84 708
B(1) West Fork Stones River 158* 796*
C(l) Fall Creek 27 385
0(1) Suggs Creek 19 320
F(1) Hurricane Creek 56 332
G(1) Stewart Creek 74 485
H(1) Harts Branch 90 394
Cheatham Reservoir
A(1) Cumberland River 58 555
B(1) Johnson Creek 8 322
C(1) Harpeth River 267* 678*
0(1) Overall Creek 141 387
E(1) Richiand Creek 152 498
F(1) Browns Creek 218 1,004
G(1) Mill Creek 307 786
H(1) Stones River 184 791
J(1) Mansker Creek 93 489
K(l) Whites Creek 217 459
L(1) Big Marrowbone Creek 8 255
M(1) Sycamore Creek 7 337
N(1) Spring Creek 8 522
*Background loadings to these tributaries are high probably because
their drainage areas are geologically rich in phosphate.
-------�
26
E. Yearly Loadings:
In the following table, the existing phosphorus loadings
are compared to those proposed by Vollenweider (1975).
Essentially, his “eutrophic” loading is that at which the
receiving waters would become eutrophic or remain eutrophic;
his “oligotrophic” loading is that which would result in the
receiving water remaining oligotrophic or becoming oligo—
trophic if morphometry permitted. A mesotrophic loading
would be considered one between “eutrophic” and “oligotrophic”.
Note that Vollenweider’s model may not apply to lakes with
short hydraulic retention times or in which light penetration is
severely restricted by hiqh concentrations of suspended solids
in the surface waters.
Total Yearly
Phosphoru Loadings
(g/m’/yr)
Old J. Percy
Hickory Priest Cheatham
Reservoir - Reservoir Reservoir
Estimated loadings 14.93 4.75 105.45
Vollenweider’s “eutrophic”
loadings 2.53 0.90 4.77
Vollenweider’s “oligotrophic”
loadinqs
1.27
0.45 2.38
-------�
27
V. LITERATURE REVIEWED
Fishel, Stephen H. 1976. Personal Communication. Tennessee
Department of Public Health, Division of Water Quality Control,
Nashville, Tennessee.
Tennessee Department of Public Health (1975-a). “Eutrophication
of Surface Waters, J. Percy Priest Reservoir”. Technical
Report No. 102. Division of Water Quality Control, Nashville,
Tennessee.
Tennessee Department of Public Health (1975-b). “Water Quality
Management Plan for the lower Cumberland River Basin” pre-
liminary draft. Division of Water Quality Control, Nashville,
Tennessee.
U.S. Environmental Protection Agency. 1971. “Inventory of
Wastewater Treatment Facilities”. Office of Media Programs,
Office of Water Programs, Washington, D.C.
_______ 1975. National Eutrophication Survey Methods 1973-
1976. Working Paper No. 175. Environmental I 1onitoring and
Support Laboratory, Las Vegas, Nevada and Corvallis Environ-
mental Research Laboratory, Corvallis, Oregon.
Vollenweider, R. A. 1975. Input-Output Models With Special
Reference to the Phosphorus Loading Concept in Limnology.
Schweiz. Z. Hydrol. 37:53-84.
-------�
28
VI. APPENDICES
APPENDIX A
CONVERSION FACTORS
t
-------�
CONVERSION FACTORS
Ilectares x 2.471 acres
Kilometers x 0.6214 = miles
Meters x 3.281 = feet
Cubic meters x 8.107 x 10 — acre/feet
Square kilometers x 0.3861 = square miles
Cubic meters/sec x 35.315 = cubic feet/sec
Centimeters x 0.3937 = inches
Kilograms x 2.205 = pounds
Kilograms/square kilometer x 5.711 = lbs/square mile
-------�
APPENDIX B
TRIBUTARY FLOW DATA
-------�
T r8IJTA -i FLfl. I O— 4AT1@’ TENNESSEE
0/1 J/7 -
_A cF c E
C ’IEAT ’ M - ESE V0I ’
T TAL ) AI’ A3E AkEA JF LAr E(S .çM) 3 ?.?
TOTAL DRAINAGE APEA OF LAtcE =
SUM )F SUB—DRAINAGE APEAS =
• AN MONT,ILY FLOWS AND DAILY FLOWS(CMS)
TRIIIUTARY MONT - YEAH MEAN FLOW
DAY
FLOW DAY
FLOw DAY
FLOW
4 73 1008.080
5 73 942.951
8 73 982.594
7 73 724.911
8 73 461.5 .4
9 73 206.1’.7
10 73 241.260
11 73 484.218
I? 73 951.446
1 74 2180.397
? 74 1588.515
3 74 996.753
4 73 1441.327
5 73 1237.446
6 73 1166.654
7 73 756.060
8 73 470.060
9 73 223.986
10 73 275.240
11 73 654.119
12 73 1277.090
1 74 2860.001
2 74 2002.001
3 74 1194.971
14 1087.367 15 1070.377
11 1180.812
26 818.351
15 291.’63
8 129.408
14 317.1e9
3 197.6 2
2 1732.991
6 1752.813
3 237 0.12i)
3 722.080
14 1180.812
1296.912
Ii 1469.644
26 ‘ 1d.3S7
15 218.058
8 159.141
14 356.792
3 294.495
2 2590.991
6 2828.853
3 2704.259
3 722.080
5IJ -fl AI AGE
NO ’1ALIZED LOi S(CM )
11b JIAr
Ah?EA(SD
‘4)
JA.
FEB
lA
App
M Y
JJ’
J J_
AUG
SEP
OCT
NOV
kC
‘ .706 1
30233.1
665.’5
792.87
465.6C
928.79
603.15
353.9b
325.b4
3U5. 2
239.56
218.61
311.49
53 .l9
s18.9
‘.706A2
3f A82.2
04.2O
1030.73
1200.63
1093.03
Iô.1O
345.11
339.Bu
322.81
254.00
235.60
J59. 2
637.13
610.11
. .70681
57.8
1.12
1.55
1.73
1.2
0.91
0.3..
0.29
0.2t
0.18
0.16
0.3
0.71
Q•73
7Je C1
1S 2.9
69.38
79.57
7 .O0
S2. 7
j e4 7
8.86
7. j2
6.17
5.78
1b.L .b
37.1’.
33.8 ,
4706J 1
2’i.9
0.311
0.575
0.’.98
G.S IP
0.297
0.06’.
0.05
0.046
0.021
0.027
0.125
0.433
0.2’.6
470tEj
73.0
1.17
1.61
1.4C
1.4
1.ul
c.5
0.42
0.26
0.14
0.15
0. S
2.26
0. 2
47 06r1
.0.7
0.59
O.R7
0.73
0.83
0.73
0.28
0.29
0.29
0.15
0.1?
0.27
0.10
0.’ 3
‘.706G1
277.1
5.89
8.24
8.61
7.93
6.53
1.85
0.73
0.70
0.30
0.82
1.67
5.80
3.90
4706 .11
2419.1
85.23
94.86
8’e.,6
51.25
42.19
32.85
6.00
11.bl
7.36
24.55
32. ’b
55.78
42.10
4706J1
119.1
2.97
4.53
3.91
2.97
1.45
0.52
0.27
0.14
0.13
0.16
1.61
1.73
1.
470& l
163.Q
2.44
4.S3
3. 1
4. i8
d.i3
0.50
0.43
0.36
0.16
0.22
0.’ 9
3.40
1.93
4706L1
31. ’.
1.41
2,’.6
2.7C
?.1P
1.62
u...5
0. .S
0.43
0.21
0.2]
0.’.7
0.78
1.11
7C6M1
269.4
4.18
7.25
7.96
6.’ ..j
4.76
1.33
1.33
1.27
0.e2
0.68
1.38
2.30
3.26
4706N 1
47.7
0.73
1.28
1.41
1.14
0.84
0.23
0.23
0.22
0.11
0.12
0.24
0.41
0.58
4T O6ZZ
960.9
27.95
3’..55
35.11
27.21
15.77
7.05
3.57
3.14
2.10
2.94
6.94
19.7’.
15.40
SUMMAP Y
36682.2
TOTAL
FLOw
IN
=
7528.59
36656.9
TOTAL
FLOW
OUT
=
7350.75
4706A 1
‘+7064?
19 1424.337
20 1059.050
19 1713.169
20 1160.991
-------�
TRI uTAr FLL)w I .dFU’ 4A1 IC r TE’ ’ SSEE 0’ /13/7
L cF CC.. E C-’EAT’-’AM ESE vC
E i PLOwS ANI) LJAILT FL0 S C’iS)
It1 )I4. UONT..4 YEAR M A FLO DAY FLO CAY FLOW L,AY FLOW
73 2.280 1’. 0.770
5 73 2.04’. 4 2.229
6 73 0.430 11 0.396
7 73 0.278 26
73 0.170 15 0.2(1
9 73 0.176 8 0.16 ’.
10 73 0.190 14 0.106
11 73 1.376 3 0.108
12 73 1.093 2 1.957
1 7’. 4.049 6 2.299
74 1.104 3 1.396 19 0.898
3 74 1.320 3 0.807 20 0.898
.70fC1 4 73 123.461 1’.
S 73 86.650 4 253.153
6 73 43.325 11 39.927
7 73 15.857 26 11.950
8 73 9.684 15 16.480
9 73 6.371 3.2 5
10 73 4.332 14 5.15’.
11 73 71.075 3 6.598
1? 73 52.386 2 59.749
1 74 188.307 6 111.285
2 74 73.057 3 133.372 19 53.802
3 74 56.067 3 6.060 20 57.483
‘ .70 60 ! 4 73 1.065 14 0.32
5 73 0.388 4 0.578
6 73 0.238 11 0.144
7 73 0.215 26 0.255
S 73 0.048 15 0.071
9 73 0.O?S 8 0.020
10 73 0.232 14 O.0 ’.2
11 73 0.544 3 0.042
12 73 0.379 2 0.?35
1 74 0.167 6 0.790
2 74 0.513 3 0.592 19 0.739
3 74 0.362 3 0.221 20 0.934
.706E1 4 73 3.483 14 0.782
5 73 1.022 4 2.229
6 73 0.623 11 0.654
7 73 0.416 26 1.708
8 73 0.456 15 0.951
9 73 0.207 8 0.O?3
10 73 0.816 14 0.119
11 73 1.900 3 0.144
1. 73 1.325 2 1.478
74 4.729 6 2.764
2 7’. t.55 3 2.237 19 1.141
3 74 2.571 3 0.688 20 2.730
-------�
T IauTA - fu). P FU 1MT1O P0? r ’JSs
• .ac CC UE 47’ ’ C iEAT A’i -‘ E5E vON
C-\ ‘J.T-’Li FL,#. A LJ JA1L ’ FLS(C ’S
1dJTA- Y ONJ1 YEAR MEAt I FLO ;a FLU CA’ FLI)W L)AY FLOw
4 73 1.294 1’.
5 73 0.677 4 1.130
73 0.773 11 0.600
7 73 0.17 2
8 73 0.253 15 0.297
9 73 0.099 8 0.014
10 73 0.453 14 0.076
11 73 1.059 3 C.102
12 73 0.739 1 0.977
1 7’. 2,631 6 1.538
2 74 0.70’ 3 0.903 19 0.716
3 74 1.433 3 0.3f8 17 0.977
4 73 16.735 14
5 73 11.638 4 13.394
6 73 4.729 Il 2.973
7 73 1.212 26 2.860
8 73 0.362 15 0.606
9 73 0.153 8 0.244
10 73 3.087 14 0.122
ii 73 7.221 3 0.547
12 73 5.040 1 5.607
1 7’. 17.925 6 10.477
2 74 8.495 2 29.166 19 9.231
3 74 6.626 3 2.758 17
‘.706H1 4 73 75.606 14 29.450
5 73 108.454 4 84.951
6 73 79.570 11 128.558
7 73 20.586 26 1.130
8 73 3.738 15 0.238
9 73 0.597 8 0.096
10 73 18.774 14 0.044
1) 73 63.713 3 38.228
12 73 108.454 1 424.753
I 74 232.481 b 286.000
2 74 107.038 2 154.’,10 19 107.604
3 74 45.024 3 1.082 17 1.130
7ubJ1 4 73 5•357 14 2.21’.
5 73 2.825 4 4.078
6 73 1.393 11 0.926
7 73 0.821 26 0.971
8 73 .37 15 0.405
9 73 0.391 i 0.158
10 73 0.821 14 0.731
11 73 3.087 3
12 73 2.163 2 1.342
1 74 7.504 6 5.493
? 74 2.631 2 3.908 19 3.228
3 74 3.058 3 2.449 17 3.058
-------�
r I8uTAP’v FLOW INFO’ T1O T NNCSS O/13/7
L. cE CC DE 47’5 C 4EAr 4AM SE VOI
M3 Tp ( FLOWS a [ JAILT FLU S CMS)
T. I9JTA Y ONT-l vEA MEAI i FLOW DAY FLOw DAY FLOW 2At FLOW
-.7Ot 1 4 73 .353 1’.
5 7 3.058 4 4.531
6 73 1.863 11 1.130
7 73 l.6 S 2o 2.O(!d
8 73 C.377 15 0.555
9 73 0.198 8 0.161
10 73 1.829 14 0.323
11 73 4.276 3 0.323
12 73 2.973 2 1.846
1 74 10.619 6 6.231
2 74 ‘.021 3 4.644 19 5.805
3 7 ’ . 5.01’ 3 1.73 17 2.509
47 j6L1 4 73 3.596 14 1.220
5 73 3.200 4 3.54J
6 73 0.680 11 0.629
7 73 0.439 26 0.351
8 73 0.269 15 0.320
9 73 0.280 8 0.2”1
10 73 0.300 14 0.170
11 73 2.180 3 0.170
12 73 1.730 2 3.087
1 7’. 6.400 6 3.625
2 74 1.750 3 2.209 19 1.419
3 7’. 2.090 3 1.031 17 1.849
4706M1 4 73 10.619 14 3.596
5 73 9.458 4 10.392
6 73 2.002 11 1.855
7 73 1.297 26 1.031
8 73 0.793 15 0.943
9 73 0.824 8 0.765
10 73 1.053 14 0.501
11 73 7.645 3 0.501
12 73 6.060 2 9.118
1 74 18.859 6 10.732
2 74 5.154 3 6.513 19 4.191
3 74 6.145 3 3.030 20 16.254
4 73 1.880 14 0.634
5 73 1.674 4 1.841
6 73 0.354 11 0.328
7 73 0.229 26 0.181
8 73 0.142 15 0.161
9 73 0.167 8 0.136
10 73 0.156 14 0.088
11 73 1.136 3 0.088
12’ 73 0.9 0 2 1.614
1 7’. 3.341 6 1 .897
2 74 0.912 3 1. IS2 0.739
3 74 1.087
-------�
TQ!BuTA- FLO. ,FOJAATIO FOP T r. ESSEE O /13/7’ ,
. E CODE C.iE T AM ESE IO!
E .N CNT—LT FLOWS )AILY FLQIS(CP’S)
T I uTA Y ‘ ‘ONT-i YEAp’ “IE FLOw AY FLOW jAY FLOW
7u€Z.’ 73
5 73 42.192
19.227
7 73 6.1’.5
73 3.1’.3
9 73 1.89 ?
1) 73 6.513
ii 73 30.582
12 73 22.059
1 74 79.004
2 74 33.414
3 74 25. 53
-------�
f I uT FLO* I MAT 1O\ Tt SE
C /13/7b
LAKE CGDE 477
LO -iIC cu- Y r ESE VOIR
l(.,TAL D A1 AAc..’. O LAr E’ ’Q -‘ ) iJ?33 .1
TRI8UrARY 4ONTPI YEAR
MEAN FLOW DAY
FLOW DAY
FLOW DAY
FLOW
T irA-Y EA(SG Y )
JAN
T
‘. 72 i,, 4 I
‘.72 . I
‘ .72e C 1
‘.72 ) 1
‘ .72JE I
‘ .723F I
472061
472. i 1
‘720J I
4 72D( 1
‘ 72 0L I
‘.72 .. ‘II
4720N 1
‘ .720P I
4 7 20 C) 1
47202Z
27s97 • 1
3 233.
• i
135.2
168.7
8o.2
129.8
196.1
75.9
239.6
23.7
53.’.
104.4
89.1
44 • 3
637.13
565.45
2. 9
1.365
3.79
‘..16
2.’.!
5.72
3.’.3
5.18
2.01
6.00
0.592
1.337
2.61
2.231
22.34
710.75
792.87
‘..9
1.8 ’f’
6.6
7.36
4.23
10.14
5.69
8.61
3.31
9.15
0.9c1
2.036
3.99
3.398
37.10
852.14
965.50
3.’ 3
1.416
5.rt
5.52
3.20
7.5?
4.53
6.R5
2.66
7•34
0.773
1.744
3.40
2.17
29.45
6’.1.0l
928.79
2.5
1.O0
3.57
3.94
2.28
5.41
3.34
5.07
1.96
8.00
0.592
1.337
2.61
2.231
21.78
5 ’e0.
b03.15
0. 3
0.343
1.?1
1.33
0.77
1.84
1.36
2.06
0.60
2.92
0.266
0.64b
1.27
1.082
8.86
351.1 23’ .83
353.46 ,25.64
1.04 0.5’.
O. ?8 0.221
1.,? 0.79
1.67 0.eô
0.97 0.50
2.31 1.19
1.J2 0. 2
1.54 0.80
0.60 0.31
1.05 0.55
U.1 J4 0.054
0.233 0.123
0.46 0.24
0.391 0.204
b.b 3.43
SUMMARY
1OTAL
SUM OF
DRAINAGE AREA OF LAKE =
SUB-DRAINA&E APEAS =
30233.1
30148.7
tOTAL
TOTAL
FLO*
FLOA
IN
OUT
=
6186.44
6246.12
NO MALUED
FL0 S(CM5)
J .J
J’JL
4U
SEP
OCT
NOV
O C
‘EAN
26”. &
213.51
193.69
291.68
04.04
473.15
30S. 2
239. 6
218.61
311.49
53 .19
518. .5
0. 2
0. ’ .’3
0.42
1.40
2.13
1.71
O.0 1
0.200
0.173
0.575
1.124
0.703
0.33
0.71
0.62
2.04
3.99
2.49
0.36
0.79
0.68
2.2’.
4,39
2.7’.
0.21
0.’.s
0.40
1.30
2. 5
1.59
u.49
1.09
0.94
3.09
6.06
3.78
0.4 ’3
0.41
0.24
1.86
2.86
2.12
0.73
0.62
0.37
2.81
4.33
3.21
0.28
0.2..
0.14
1.09
1.88
1.24
0.29
0.26
0.31
3.26
3.48
3.39
0.02?
0.026
0.031
0.320
0.345
0.33..
0.064
0.058
0.070
0.722
0.776
0.754
0.13
0.11
0.1’.
1.42
1.52
1. ’ .7
0.107
0.097
0.117
1.209
1.297
1.259
i.’.a
2.68
2.49
12.09
18.b6
13.76
MEAN MONTHLY FLOWS A D uAILY FLOwSCMS)
472 .A1 4
73
705.089
15
974.099
5
73
634.297
12
962.773
6
73
673.941
9
679.604
7
73
610.907
1
747.565
8
73
385.109
25
515.366
9
73
258.250
2
447.4 06
10
73
283.168
6
404.931
11
73
390.772
4
63.996
12
73
974.099
14
261.931
1
74
2081.288
9
1730.159
2
74
1588.575
3
1962.357
17
1401.684
3
74
988.258
4
874.990
25
1291.248
-------�
T 1bUTAr fLO, 1WFORMAII F n TE NESS t 09/13/76
LAKE CC )E ‘.77(s )LD iIC O- ’r SE VO1
“ONTHLY FLO ,5 A ’sD JAILY FLCJASC45
T 1 JTA ?i’ ‘ ONT’-, YEAS -4EAN FLU. DAY LO DAY FL0 u Y
472..A? 4 73 1009.050
5 73 942.951 4 76 7 .3o6 12 1019.406
6 73 982.59’. 9 690.931
7 73 724.911 1 917.466 26 11u1. 2S
8 73 ‘ .61.564
9 73 206.147 2 280.9(s)
10 73 241.260 6 498.3 7ô
11 73 484.218 4 73.624
12 73 951.446 15 427.584
1 74. 2180.397 9 1993.506
2 7 ’ 1588.575 3 2370.120 17 1251.bO4
3 74 996.753 4 7 5.7 3 25 1427.169
‘. 73 4.049 IS 1.57?
5 73 4.677 12 1.475
6 73 1.334 9 1.4C5
7 73 0.60A 1 0.405 28 0.617
8 73 0.362
9 73 0.181 2 0.153
10 73 0.283 6 0.102
11 73 3.739 4 0.343
12 73 2.557 14 0,425
I 7’. 6.541 9 13.96C
2 74 3.625 3 7.362 17 3.115
3 7’. 2.945 4 1.921 25 2.659
472 C1 4 73 1.665 15 0.648
5 73 1.923 12 0.609
6 73 0.549 9 0.578
7 73 0.249 1 0.167 28 0.255
73 0.150
9 73 0.074 2 0.06?
10 73 0.116 6 0.042
11 73 1.5)5 4 0.142
12 73 1.053 14 0.176 -
1 74 0.269 9 5.74d
2 74 1.489 3 3.030 17 1.277
3 74 1.206 4 0.750 5 1.096
4 73 5.918 15 2.305
5 73 6.82’. 12 2.15t
6 73 1.951 9 2.056
7 73 0.886 I 0.592 28 0.900
73 0.532
9 73 0.266 2
10 73 0.413 6 0.147
11 73 5.465 4 0.501
1? 73 3.71 14 O.A2)
74 9.571 9 20.388
2 7’. S.2 5 3 10.789 17 4.531
3 74 4.276 4 2.662 25 3.879
-------�
1R!r UTAr ( FLQq I FO’ ATI’)’i FJ rE N ssE
L E CODE ‘7.70 )LO -‘1C’3 Y ESE IOI
‘ Ea’. O 1_dLv LO.S AND JAILY FLO.SICMS
T j ,uTAPY MONT’-t YEAk MEA FLO* DAY FLO DA FLO Oar FLOW
73 6.513 15 3.53’.
5 73 7.534 12 2.373
6 73 2.14’ 9 2.26u
7 73 C.9”. 1 0.6,1 2 s 0.991
p 73 0.58’,
73 0.29’ 2 0.2’.’.
10 73 0.45 & 0.161
11 73 6.003 4 0.552
1? 73 4.106 1’. 0.682
1 74 10.477 9 22.427
2 7’. 5.8C5 3 11.836 17 4.984
3 7’. 4.7C1 . 2.917 25 4.276
4 73 3.76’, 15 1.47v
5 7.3 4.361 12 1.376
6 73 1.246 9 1.311
7 73 0.566 1 0.377 28 0.575
8 73 0.340
9 73 0.170 2 0.142
10 73 0.263 6 0.093
i i 73 3.483 4 0.370
12 73 2.384 14 0.396
1 74 6.116 9 13.026
2 74 3.370 3 6.881 17 2.888
3 74 2.735 4 1.696 25 2.481
472 , 1 4 73 8.948 15 3.483
5 73 10.336 12 3.256
6 73 2.945 9 3.1)5
7 73 1.345 1 0.895 1.365
8 73 0.807
9 73 0.40? 2 0.337
10 73 0.626 6 0.227
11 73 8.269 4 0.784
73 5.663 14 0.940
1 74 14.527 9 30.865
2 74 6.014 3 16.339 17
3 7’. 6.485 4 4.021 25 5.490
4720 I 4 73 5.663 15 2.214
5 73 6.541 12 2.07u
6 73 1.872 9 1.971
7 73 0.852 1 0.566 28 0.866
8 73 0.510
9 73 0.255 2 0.212
10 73 3 .3Q6 6 0.142
11 73 5.239 4 0.496
I. 73 3.596 14 0.595
74 9.203 9 19.967
2 74 5.069 3 10.336 17 4.361
3 74 4.106 4 2.554 25 3.738
-------�
T 1duT LO 1 F T1 v . rss o;ii 3’ 7
L E CGDE ‘C t’LD -1CKO r ESE VO1P
E’. i O T LY FLO S A D )A!L t L) .S’C ’S)
T918UTA Y MONTr1 YEA MEAN FLO DAY FLO DA FLOW DAy
4 73 8.580 15 3.3’.1
5 73 9.911 1? 4.559
6 73 2.82 9 2.973
7 73 1.286 1 0.65 1.3 18
R 73 0.77.)
9 73 0.385 2 0.323
10 73 0.600 6 0.215
11 73 7.9C0 0.723
12 73 5•437 14 0.903
1 74 13.875 9 29.45u
2 74 7.674 3 15.631 17 6.570
3 7’. 6.23fl 4 3. 51 25 5.635
472j k 4 73 3.313 15 1.294
5 73 3.823 12 1.212
6 73 1.096 9 1.152
7 73 0.498 2 0.331 28 0.507
8 73 0.297
9 73 0.150 2 0.125
10 73 0.232 6 0.082
11 73 3.058 0.283
12 73 2.098 14 0.349
1 74 5.380 9 11.440
74 2.973 3 6.060 17 2.549
3 74 2.407 4 1.492 25 2.183
472CL1 4 73 10.477 15 4.078
5 73 12.091 12 3.823
6 73 3.455 9 3.653
7 73 1.572 2 1.048 28 1.597
8 73 0.943
9 73 0.470 ‘ 0.394
10 73 0.733 5 0.263
11 73 9.656 4 0.889
12 73 6.626 14 1.099
1 74 16.962 9 36.246
2 74 9.373 3 19.086 17 8.042
3 74 7.589 ‘. 4.701 25 6.881
‘.720M1 4 73 1.03 15 0.405
5 73 1.195 12 0.258
6 73 0.343 9 0.360
7 73 0.156 1 0.102 28 0.159
8 73 0.093
73 0.045 2 0.040
10 73 0.074 6 3.025
11 73 0.954 4 0.088
12 73 0.654 IS 0.1fl5
1 74 1.676 9 3.568
2 74 0.92i 3 1.M 6 17 0.795
3 74 0.750 4 0.454 25 0.580
-------�
T 1 .ra. y Lt I —‘ ‘Mrj)•4 T 4 4ESS
L c CL,( ‘LD -1Ccu ESE—vQ1..
E’ MQ T..Lf O JAILT L S rMS
MO\T-s ‘lEAN FL j,b )A’r FLC 1)AY
4 73 2.333 15
5 73 2.6 , , 12 0.852
6 73 0.710 9 0.810
7 73 0.351 1 0.232 28 0.357
8 73 O.21 j
9 73 0.105 2
10 73 0.164 6 0.059
I I 73 2.158 4 0.I9
12 73 1.475 15 0.232
I 7 ’. 3.7 , 9 8.042
2 74 2.087 3 4.248 17 1.790
3 74 1.691 4 1.051 25 1.535
472;. 4 73 ‘.559 15 1.781
5 73 5.267 12
6 73 1.506 9 1.586
7 73 0.685 1 0.456 28 0.697
8 73 ).411
9 73 0.204 2 0.170
10 73 0.320 6 0.113
11 73 4.219 4 0.096
1? 73 2.888 15 0.456
1 74 7.391 9 15.7 4
2 74 4.073 3 8.325 17 3.511
3 74 3.313 4 ?.053 25 3.002
4720 1 4 73 3.90s 15 1.521
5 73 “.5C2 12 1.422
6 73 1.286 9 1.35’.
7 73 0.583 1 0.391 28 0.351
8 73 0.351
9 73 0.I7 , 2 0.1’.7
10 73 0.272 6
ii 73 3.596 4 0.331
I? 73 2.464 15 0.391
74 6.315 9 13.4 j
2 74 3.483 3 7.108 17 3.002
3 74 2.826 4 1.753 25 2.563
‘72oZZ 4 73 36.81’
5 73 42.75’
6 73 12.17,,
7 73 5.550
6 73 3.313
9 73 1.6
13 73 2.585
11 73 33.980
12 73 23.3ei
1 74 59. 749
2 74 3.13i
3 74 26.75q
-------�
T I ‘jT .R FL)., INF )‘ ‘AT 10 i I E’ .4! SSEE
0 / 1 76
LA F c u€: 47’3
.j. Cr . PIEST E5E -ICI
10T L - AINA.,E c.. U LA (S
TOTuL OkAINAGE AREA OF LAr .
SUM OF SU8—DPAINAGE AREAS
MONTP4 YEAR MEAN FLO.J
JAY FLOW DAY
FLOW OA FLO
AP i
J8—D A IJA ,E
4 EA(S. 1Y-i)
N
MAr
‘72J4 1
771.8
..21
28.8
27.S8
1 .4P
‘.72381
650.1
17.70
20.51
17.27
16.20
..723C 1
) 65.
‘.64
8.21
6.17
4.39
4723 1
9 8. 9
2.77
4.9’
3.6
?.6?
72 E1
?31 .3
82.97
91.7S
81.16
48.14
4723F 1
59.8
1.269
1.778
1.858
1.713
‘723(,i
147.’
4.81
7.65
5.41
4.28
‘.723- 1
28.5
0.929
1.478
1.048
0.827
‘.7232Z
336.7
9.85
11.64
10.51
8.47
NOr MALLLEU
FLOS(CMS)
AN
Jti
JUL
AJ(,
;ci
13.1
4.50
3.82
3.03
3.03
3.20
5.80
19. 2
13.31
15. 6
o.4b
3.99
3.06
1.70
1.70
3.91
18.83
10.54
1.49
1.87
0.96
O. ’.0
0.87
3.78
2.50
4.sO
0.89
1.11
0.57
0.24
0.52
0.45
1.49
2.’ 2
1.83
‘.0.’.
32.03
5.72
11.33
7.25
2’..24
32.00
53.52
0.842
0.980
0.399
0.157
0.150
0.0’5
0.177
0.360
1.257
2.44
1.98
u.39
0.21
0.32
0.34
0.40
1.21
2.b
0.382
0.075
0.040
0.082
0.065
0.078
0.234
0.518
TP1 3UTARY
MEAN MONTMLY FLOaS AND DAILY FLOWS(CMS)
S UMM A. Y
2310.3 TOTAL FLOW Ir à = 462.00
2259.0 TOTAL FLOW OUT = 490.56
472JA 1
4
73
37.661
13
13.592
S
73
55.784
14
16.452
6
73
13.082
14
17.047
7
73
7.53’.
14
3.455
8
73
2.860
14
6.400
9
73
1.52
13
1.266
10
73
2.784
15
2.8o0
11
73
38.?28
14
2.195
12
73
27.835
18
2.945
I
7’.
71.358
14
26.759
‘
7’.
32.56’.
1
19.397
15
22.370
3
74
23.361
1
10.534
15
10.052
472301
4
5
6
7
8
Q
10
ii
12
1
3
73
73
73
73
73
73
73
73
73
74
74
74
29.733
37.945
11.100
4.559
2.274
1.138
1.991
27.156
24.721
63.713
27.920
15.433
13
1’.
14
14
14
13
15
14
18
14
1
1
13.790
8.0 ’ .2
10.874
2.973
4.417
10.16
2.274
2.415
4.049
40.776
21.747
8.948
15
15
1.747
5.409
-------�
1—I Tt, PLO . 1’.ru- ?1AT1o’ F3 T .j .ESSEt. 0 4/13/7
1.- C()E .773 . PE C - -!FST ESE- v’1-
UNTMLT L i .S aN uM Li FLOn C S)
T I- uT c r— E - MEAN FL ).i jAY 0 rLO FLOW
.7?3C 1 73 .070 13 2.fl7
S 73 11.950 1’. 3.5140
73 14 3.653
73 1.6)4 1’. 0.0
P 73 .617 1’. 1.376
73 0.32 13 0.0
10 73 0.597 15 0.0
11 73 8.2’ .’) 14 0.0
12 73 5.975 18 0.634
714 15.348 14 6.711
2 74 6.966 1 4.163 15 4.814
3 74 5.01? 1 2.265 ID 2.158
472301 4 73 4.814 13 1.741
S 73 7.136 14 ?.uio
6 73 1.S?6 14 2.186
7 73 0.963 14 0.445
8 73 0.368 14 0.821
9 73 0.195 13 0.0
10 73 0.3 7 15 0.0
I I 73 4.899 14 0.0
1’ 73 3.568 18 0.379
1 74 9.175 14 3.993
2 74 4.161 1 2.489 15 2.860
3 7 3.03? 1 1.354 15 1. 88
4723E 1 4 73 69.093 13 44.457
5 73 103.9?3 14 130.251
6 73 77.588 14 70.509
7 73 20.105 1’. 0.0
8 73 3.596 14 0.0
9 73 0.538 13 16.23?
10 73 17.585 15 16.282
11 73 13.960 14 27.128
1? 73 38.65? 18 22.653
1 74 225.4G2 14 141.584
2 74 103.923 1 143.566 15 80.986
3 74 4?.589 I 57.766 15 0.0
47?3F1 4 73 2.727 13 1.269
5 73 3 4R3 14 0.739
6 73 1.019 14 1.000
7 73 0.419 14 0.275
8 73 0.210 14 0.405
73 0.105 13 0.934
10 73 0.18’. 15 0.210
11 73 2.498 14 C.??’.
1? 73 2.2/7 lb .374
(4 5.86? 1 ’. 3.76
2 7’. 2.571 1 2.002 15 2.002
3 74 1.41 1 0.824 15 0.498
-------�
Tp18LTt - y’ FLO j 1 T1 i TEN :tSSEE
0- , I ,/ 7
CODE ‘.7 3 J. EPCY P1EST ‘ESE ’iC I
MQNT.- L LJ 4IL L 5 ’C .S
T- I, UTA4Y ‘ ONT YEA MEAN FLOW r y FL j 3Ay FLOW LAy FLLIA
73 1 13 3.1
5 73 8.580 1’. 1. 1
6 73 2.515 I’.
7 73 1.031 14 0.677
A 73 0.515 14 1.000
9 73 0 .25 13 .3u5
10 73 0.’.50 15 0.515
I I 73 6.145 1 ’. 0.547
12 73 5.607 18 0.917
1 74 14.413 1’ 9.260
74 6.343 1 4.927 15 4.927
7’. 3.’83 1 2.030 15 1.223
4 73 1.3jO 13 0.603
5 73 1.657 14 u.351
6 73 C.487 14
7 73 0.198 14 0.130
B 73 0.099 14 0.193
9 73 0.051 13 0.0
10 73 0.088 15 0.0
11 73 1.189 14 0.0
12 73 1.085 18 0.178
1 74 2.789 14 1.787
2 74 1.223 1 0.954 15 0.954
3 7 ’ . 0.677 1 Q.394 15 0.238
‘ .723ZZ 4 73 15. L4
5 73 21.94’,
6 73 5.748
7 73 2.803
8 73 1.215
9 73
1 ’) 73 1.1’)’.
11 73 15.376
I ? 73 l?.48B
7’. 31.998
2 74 I ’ ..328
74 9.090
-------�
APPENDIX C
PHYSICAL AND CHEMICAL DATA
-------�
T)—ET - T. 1FVAL AT 7t /0’ ./10
“ 0b0 1
3 19 09.u 087 13 34.0 3
C1tATriA l 3Er 0I
.7j ’ .3 TtN’ .E55E
o 5201
I 1 — LES
00. ’. FE.ET
211 12 2
D T CLASS
73/05/21 15 00 0000
15 00 0004
15 00 0015
15 00 0031
7j/O8/ln 09 45 0000
09 45 0005
09 45 0015
09 45 0035
73/10/23 16 00 0000
16 00 0005
lb 00 OOts
16 00 0034
0.071
(.076
0.107
0.111
0. 1 ?
C • 203
(.203
I . . I 85
0. lbS
V. 15
U. 141
3.1?’.
DATE
FR OP’
To
TP E DEPT ’i
oF
DA FEET
73/C .D/21 15 00 0000
15 30 000’.
15 00 0015
15 00 0031
73/08/16 09 45 0000
09 ‘ .5 3005
09 45 0015
09 45 0035
73/10/23 16 00 0000
lb 00 000
16 00 0015
16 00 0034
0O10
00300
00077
0009’
00403
00 ’ .10
0 j510
00625
00530
0 0o7 1
nATE
DO
TRA’ SP
C DUCTVY
I Ai
i3—N
TOT KJEL
“JO? .u3
MOS—D1S
TLMI.-
SECC’ i1
FIELL)
CACL’J
TOTAL
N
N—TOTAL
U TriQ
CENT
HG/L
1? CriLS
M1Cr O’iHO
SO
MG/L
ML,/L
MG/L
M(.,/L
MG/L P
17.8
24
175
7.73
59
0.O 0
0.400
0. ’ .00
0.040
17.4
9.’.
170
7.8(.
56
0.060
0.200
0.393
0.037
17.7
9.8
170
7.80
55
0.060
0.500
0.410
0.034
17.7
9.6
175
7.90
6
U.ObO
0.400
0.410
0.034
25.3
28
171
7.70
60
0.190
0.800
0.290
0.131
25.1
.b
170
7. C
57
0.170
0.300
0.d90
0.127
25.1
5•4
169
7.4C
58
0.180
0.400
0.300
0.120
25.0
5.8
170
•33
59
0.170
0.300
0.280
0.101
29.7
33
173
7.40
58
0.160
0.900
0.370
0.093
?9.b
169
7.40
59
0.160
0.300
0.3b0
0.086
29.6
5.8
170
7.30
60
0.160
0.200
0.360
0.085
29.6
5.8
171
7.30
61
0.lbO
0.300
0.360
0.077
DATE
FROM
T.)
TIME DEPTH
OF
DAY FELT
03665 32217
Pt-iOS-TOT Ct-tLRPHYL
A
MG,L P JG/L
4.5
6.0
11.5
-------�
STD- ET -ET IEVAL DATE 7 ”0 ’/l0
‘.7 u2
J& 1 20.0 fl 7 09 10.0 3
c-,E r-,AM 3E— )1-
‘7c 21
05 1
A 1 PA E
03i . F E.T
211 12G2
L)t Ir1 CLASS 00
73/0 /21 16 25 0000
16 25 0004
16 25 3O1
16 25 0030
73/08/lb 10 30 0000
10 30 0005
10 30 0015
10 30 0024
0.101
0.100
0.099
0.100
0.143
0.167
0.22
0.240
DATE
FROM
1)
TIME DEPT l
OF
DAY FEET
73fCi/21 16 25 0000
16 25 000’
16 25 0015
16 25 0030
73/08/lb 10 30 0000
10 10 3005
10 30 0015
10 30 0024
00010
00303
00077
00094
00400
0C .1C
00610
00b25
0 0b30
OObl l
MATER
DO
TRANSP
CNDOCTVY
r’Pl
I Ai. .r
M3—
Tot KJEL
NO2 4O3
P )-lO - jj
1 MP
SECCt41
FIELD
CACO3
TOTAL
I
s—TOTAL
Op TrI0
C P.IT
‘4C’/L
INcrIES
M1CP OMH0
SO
MG/L
Mt ,/L
MUlL
MG/L
MO/L
17.5
175
b. u
53
0.070
0.500
O.3 .
).0L3..
17.5
9.
165
7.20
52
0.060
0.400
0.380
O. O3ij
17.5
9.8
160
7.30
52
0.050
0.400
0.380
0.O
17.5
9.8
160
7.40
52
0.ObO
0.400
0.390
0.02
24.9
1 0
7.30
63
0.120
0.300
0.320
0.0 3
2 .b
6.b
17
7.30
b2
0.110
0.200
0.320
0.Oi
2’ .a
6.’
178
7.20
62
O.12u
0.400
0.340
0.08—
24.5
6.4
17 3
7.20
b2
0.110
0.300
0.320
0.08..
DATE
F ROM
TO
TIME DEPTt-s
0F
OA ’ FEET
00665 32217
PHO —TOT CMLRPMYL
A
MG/L UG/L
8.6
10.2
-------�
STJRET ET tEVAL DAT: 76/0-,’/IO
w7200 1
36 17 ‘+0.0 086 39 L,.0 3
UL’) 1C O Y LAKE
‘7337 1E . ESSEL
052091
1 1E ’ALE5
003’. FEET
2111202
DtPTri CLASS 00
73/05/22 09 ?0 0000
09 20 0004
09 20 0015
09 20 0030
73/08/16 11 tc 0000
11 15 0005
11 15 0020
11 15 0040
11 15 0060
11 15 0075
73/10/2? 14 29 0000
14 29 0005
14 29 0015
14 29 0035
14 29 0065
0.06’.
0.05 3
0.085
0.105
0.033
U.054
0.053
0.063
0.0 i 8
0.103
0.10’
0.097
0.086
0.086
0. 120
DATE
FR O
TO
TI E DE°T’l
DAY FEET
73/05/?2 09 20 0000
09 20 0004
09 ?O 0015
09 20 0030
73/Od/Ib 11 15 0000
1.1 15 0005
11 15 0020
11 iS 0040
11 15 0060
11 IS 0075
73/10/22 14 70 0000
1’. 2 0005
14 29 0015
14 29 0035
1’. 29 0065
00010
00300
00077
0C09’.
00 ’ .0’)
00410
00610
00625
00630
00D71
ATER
DO
TRA 5P
CNCnJCTVV
r N
7 AL
f rI3—N
TOT IcJEL
‘ iO26NU3
PrOS—UIS
TEMP
SECCHI
FIELD
CACO3
TOt. L
N
‘J—TUT L
Op TrI0
CENT
MG/L
INCHES
M1C- ’OMriO
U
MC,/L
M /L
MC,/L
HG/L
NG/L P
17.3
23
160
7.70
32
0.040
0.400
0. 90
0.01’.
17.3
10.0
160
7.80
31
0.030
0.200
0.340
0.017
16.9
10.0
160
7.30
32
0.030
0.300
0.490
0.03’.
16.9
9.8
165
7.70
64
0.040
0.300
0.580
0.036
26.0
40
153
8.30
52
0.070
0.400
0.070
0.010
26.)
11.6
155
8.40
51
u.060
0.200
0.060
0.018
25.2
10.6
1 1
7.60
51
0.070
0.400
0.080
0.019
23.9
5.6
150
7.50
52
0.080
0.400
0.1 ’ 0
0.026
22.6
6.6
146
7.30
52
0.120
0.300
0.280
0.051
22.5
6.8
144
7.20
53
0.130
0.400
0.300
u.055
21.4
36
137
8.60
53
0.060
0.600
0.230
0.03
21.3
10.0
137
8.60
52
0.030
0.400
0.220
0.031
20.3
8.0
134
7.80
49
0.040
0.400
0.240
0.035
20.1
7.4
134
7.7u
50
0.060
0.300
0.260
0.038
20.0
7.2
133
7.60
50
0.070
u.200
0.240
0.036
DATE
FROM
TO
TIME DEPTH
OF
DAY FEET
00665 32217
PHOS—TOT CHLRP#YL
A
MG/L P UG/L
8.1
2 ’ ..0
16.8
-------�
ST)PET ET IEVAL OATE 7 /O9 /I0
‘.72002
36 1’ ‘ .2.0 ( 6 36 .35.0 3
OLD ICi
-------�
SlOT ET, IEIAL OATE 7c/0 ,’/10
720u3
36 I 30.0 08 33 .5.0 3
UL T CKJ Y LAKE
‘7165 TENES .
052091
I IE AL S
00 U FEET
2111202
O€PTi ’ CLASS 00
73/05/22 10 30 0000
10 30 0004
10 30 0015
10 30 0035
10 30 0057
73/08/16 14 20 0000
14 20 0005
14 20 0020
14 20 0040
14 20 0058
73/10/22 15 00 0000
15 00 0005
15 00 0015
15 04) 0030
15 00 0052
0.0 So
0.0.6
o
0.051
0.0s..
0.05..
0.061
).055
0.0B2
0.05
O.05 .
0.063
0.0 SC
0.0 85
00010
00300
00077
00U ’
o0 ’ .c u
00’.1O
00610
00625
DATE
TI’lF
DEPT-i
WATER
DO
TP, NSP
CND(JCTV’
p ri
I
ALK
NM3—N
TOT PcJEL
00b30
00671
FR0
OF
TEMP
SECCH!
FIELL)
CACO3
TOTAL
N
N-TOTAL
p-tos—u s
o r .iu
TO
DAY
FEET
CENT
10/L
INCHFS
MLC-4OMrlO
SO
MG/L
M,/L
MG/L
MC ./L
Mb/L
73/05/??
-
10 30
10 30
10 30
10 10
10 10
0000
0004
0015
0035
0057
16.7
16.6
16.5
16.5
16.4
10.0
10.0
10.2
10.2
18
155
155
155
160
1’ O
7. 0
7.80
7.80
7.8o
7.8
58
59
59
60
60
0.030
u.030
0.030
0.020
0.020
0.200
0.200c
0.200K
0.200K
0.200K
0.310
0.310
0.310
0.310
0.01’.
0.0l
0.01 -.
0.01’.
73/08/1
14 ?3
14 20
14 20
14 ?0
14 20
0000
0005
0020
0040
0058
?7.3
24.
22.2
21.8
21.cl
9.8
7.2
7.0
7.0
36
151
14’
138
137
136
.50
S.2u
7.50
7.30
7.2u
53
52
52
53
53
0.070
0.060
(p.100
0.110
0.100
0.800
0.800
0.600
0.600
0.600
0.060
0.090
0.300
0.340
0.340
0.OI
0.01
0.0 .
0.0€i
0.02 ’
73/10/22
15 00
15 00
15 oo
0000
0005
0015
19.7
19.7
19.7
7.2
7.6
39
128
128
128
7.60
7.50
7.50
47
47
47
0.050
0.050
0.060
0.300
0.200K
0.200
0.220
0.210
o. io
O.O j
0.0k,
0.01 -
15 00
15 00
0030
0052
19.7
19.7
7.4
7.2
129
123
7.40
7.30
‘.6
46
0.0,0
0.050
0.200
0.200K
0.22u
0.220
o.o
0.01-
O.0
DATE
TIME
DEPTM
00665
Pp-i05-TOT
32217
ChLRPhYL
FROM
OF
A
TO
DAY
FEET
MG/L “
UG/L
5.9
8.4
5.6
Sc VALUE .c’;O,IM TO 9E
LtSS Th . N INDICLTEU
-------�
STJ ET ET-UF’1AL tJATE 7t /C9/i0
‘72004
3b l .2.0 08o 29 2 .0 3
OL) CI’ J LA \E
.7 65 TE r E SEt.
0 52 0;1
1 1E ALE5
0059 FEET
211 12th?
OtPTM CLASS GO
73/05/22 11 00 0000
11 00 0004
11 00 0015
11 00 0035
11 00 0058
73/08/16 1’ ‘ .5 0000
14 45 0005
16 45 0015
14 65 0025
14 45 0040
1’. 45 0058
0.043
C.04 5
0.040
0.05’
0.083
0.0 3
0.049
0.05 ’ .
0.06’
0.12’.
DATE
F P O I
TO
TIUF DEPTh
OAr FEET
73/05/2? ii 00 0000
11 00 000’.
11 00 0015
LI 00 0035
ii 00 0058
73/08/1 1’ 45 0000
1 ’. ‘5 0005
1’ 45 0015
1’. 45 0025
1’ 45 0040
14 ‘ S 0058
,. 0010
00300
00077
0309’.
00430
00-.10
00610
00625
00630
00671
ATEP
00
TR. NS’
Ct •DuCTvy
PH
1
AL’S
NH3 .
TOT JEL
NO2&N03
, r4OS—UIS
TE MP
SECC 1
FIELD
CACO3
TOTAL
N
NTQTAL
ORTriO
CENT
‘lO/L
INCHES
IC OMriO
SO
MG/L
‘lO/L
‘lO/L
‘l OlL
MG/L i
16.5
1’ ,
Lou
7.80
62
0.040
0.200
0.320
0.014
16.2
10.2
160
7.80
51
0.060
0.200K
0.320
0.014
15.9
10.2
160
7.80
‘.8
0.030
0.200K
0.330
0.021
15.8
10.0
155
7.80
48
0.030
0.200K
0.330
0.020
15.d
10.0
155
7.70
48
0.030
0.200K
0.330
0.016
27.1
26
151
8.00
54
0.080
0e900
0.160
0.017
25.7
9.8
1-.9
7.60
54
0.060
0.400
0.180
0.022
22.9
6.2
139
7.30
53
0.060
0.400
0.280
0.025
21.9
7.2
136
7.10
55
0.080
0.300
0.320
0.029
21.d
7.2
136
7.00
54
0.090
0.300
0.360
0.029
21.8
7.4
136
7.10
54
0.100
0.300
0.360
0.028
DATE
F ROM
TO
TIME DEPTk
OF
DAY FEET
0066 32217
P9OS-TOT CPILRPHYL
A
‘lO/L P 1J(,IL
3.3
12.7
K VALUE KNOWN TO 8E
LESS THAN INDIC..TEO
-------�
ST )r ET ETP1EVAI DATE: 7 /09/i3
-.72tj)S
46 i 15.0 Q 25 35. ) 3
jLO co
— 7 Ib TE NESSEE.
052k i
1 1E ML
Oo”0 FEET
2111202
DEPTr CLASS 00
73/05/22 11 35 0000
11 35 0004
11 35 0015
11 35 0038
73/0ô/16 1 15 0000
15 15 0005
15 15 0015
15 15 0030
15 15 0047
73/10/2? 15 3’. 0000
15 34 COOS
15 34 0015
15 34 0025
15 34 0040
0.047
0.041
0.045
0 .041
0.079
0.058
0.049
0.041
0.07k
0.066
0.052
0.050
0.055
0.060
DATE
TIMF
DE°T-’
FR ,.’
OF
TO
DAY
FEET
73/05/22
11 35
11 35
11 35
11 35
0000
0004
0015
0038
73/08/16
15 15
15 IS
15 15
15 IS
15 IS
0000
0005
0015
0030
0047
73/10/22
15 34
15 34
15 34
15 34
15 14
0000
0005
0015
0025
0040
DATE
TIME
OEPT 4
FROM
OF
TO
DAY
FEET
10.2
10.0
10.0
7.2
7.2
7.2
7.6
7.2
7”
7.4
0 00 lu
00300
0e077
0 09’
00400
00’.10
00610
00o?
006)0
00671
dATER
DO
TRANSP
CNOUCTVv
T AL
Np13—N
TOT I JEL
1U2 O3
PriOS—jIS
TEMP
SECC .i1
FIELD
CAC O3
TOTAL
N
frTUTAL
(Ji TiO
CENT
IC,/L
INCh ES
IC 0Mr10
Su
M(,/L
MG/L
MUlL
Mu/L
MUlL P
17.1
20
155
7.70
45
0.040
0.200
0.3 ’.0
0.016
15.3
160
7.7u
45
0.040
0.200K
0.3’.0
O.01d
15.2
155
7.7(,
46
0.030
0.200K
0.340
0.032
15.2
155
7.70
‘.5
0.030
0.200K
0.350
0.026
29.0
30
160
7.00
55
0.090
0.400
0.380
0.021
25.0
j44
7.10
55
0.050
0.400
0.240
0.017
21.9
13 1
7.00
56
0.060
0.300
0.330
0.020
21.9
138
8.90
55
0.060
0.300
0.340
0.019
21.9
137
6.90
56
0.060
0.300
0.340
0.019
22.0
36
133
7.50
46
0.050
0.400
0.240
0.019
19.7
128
7.40
‘.5
0.050
0.200K
0.240
0.014
19.3
127
7.20
45
0.050
0.200K
0.240
0.01’.
19.3
126
7.23
‘.5
0.060
0.200K
0.250
0.016
19.2
127
7.2C
‘.7
0.ObO
0.200K
0.250
0.016
00665 32217
PHOS—TOT CHLRPHYL
A
MG/L P DU/L
2.9
5.7
2.2
K VALUE KNOWN TO BE
LESS ThAN INOICArEO
-------�
sTCPET . jTR1EVAL 7 /0 /10
‘472301
36 09 1S. 086 36 0 .0 3
J. r CY 1 ST UI’
.1037
0 0,l
L1L?ALES 2111202
)71 FEET OEPT,i CLASS 00
FR O ’
Tu
TI ’4 DEPT
OF
OAY FEET
00010
00300
3 (’77
00O ’
00400
00410
00610
0062 5
ATER
00
T NSP
C’jC,UCT’dY
I
AL”
Nr13—N
TOT I\JEL
N02&N03
O OI
TEMP
SECCMI
FIELD
CACO3
TOTAL
N
N—TOTAL
ü Tr U
CENT
‘ G/L
1NCrIES
MIC OMHO
So
M ,/L
MG/L
MG/L
MO/L
MG/L P
73/05/21
09
iS
0000
19.9
7e
280
8.50
121
u.0 ’.0
0.500
u.070
0.002
o
is
000’.
1 .’-
10.4
265
8.40
124
0.040
0.300
0.060
0.U02P
09
c
0021
19.9
10.0
260
8.40
12 ’.
0.040
0.300
0.060
0.002
09
15
0035
18.6
11.0
270
8.20
128
0.050
0.200
0.210
0.004
09
j5
0050
17.6
c.o
270
7.90
126
0.100
0.300
0.350
0.023
09
13
0068
15.8
1.8
280
7.6u
128
0.100
0.300
0.510
0.048
73/06/1’
16
30
0000
28.9
100
208
7.80
97
0.060
i .500
0.ObLi
0.006
16
30
0305
28.3
7.6
210
7.70
96
0.050
0.400
0.050
0.015
16
30
0020
27.2
2.2
222
7.10
105
0.050
0.400
0.050
0.017
16
30
0035
20.9
0.2
238
7.00
126
0.070
0.400
0.040
0.026
16
30
0050
18.7
o.0
227
6.80
126
0.430
0.800
0.100
0.044
16
30
0065
17.2
0.0
248
6.70
1’.6
1.110
1.600
0.060
0.026
16
30
0075
16.2
0.2
260
6.70
159
1.350
1.800
0.130
0.043
73/10/24
08
?0
0000
21.0
96
212
7.50
108
0.050
0.400
0.030
0.007
08
20
0005
21.0
216
7.50
110
0.060
0.300
0.020
0.014
08
20
0015
21.
5.8
216
7.70
110
U.0 0
0.200
0.020
0.013
08
20
0025
21.0
5.8
215
7.70
105
0.040
0.300
0.020
0.022
v
0
oO4S
20.6
2.2
227
7.30
132
0.690
1.100
0.020
0.036
08
20
0055
19.0
0.0
250
7.20
134
0.940
1.300
0.02u
0.049
08
0
0062
18.4
0.0
254
7.20
138
1.240
1.600
0.020
0.037
< VALUE c O N TO 8E
LESS 1.-tAN INOIC TEJ
-------�
ST —ET -LIP!EdAL DATE 7 /C9/10
00665 3221.7
OE T’-’ - rlOS—T0T Ch Pr1l’L
A
.JG/L
73/0 /21 09 15 0000
0 15 0004
OQ 15 0021
09 15 0035
09 15 0050
09 15 0068
73/08/16 16 30 0000
16 30 0005
16 30 0020
16 30 0035
16 30 0050
1.6 10 0065
16 30 0075
73/10/24 08 20 0000
08 20 0005
08 ?0 0015
08 20 0025
08 20 0045
08 20 0055
08 20 0062
C .0 3
0.031
3.031
0.025
0.060
3.0 ‘ 5
0.0 20
0.032
0.044
0.049
0.115
3 • 1 7
rJ .01E
0.0 23
0.026
0.0 30
0.0 90
0.102
o • 143
‘72301
jt 0 1 .0 0e 6 3f u .0 3
—CY ? 1ESi E E ’J’)i
‘.7i 37 iE SEE
D4TE
FR0.
TIME
OF
uAr FEET
11LP. LES
0071 FEtT j P1- .
211 12 ,2
CLA S 00
13.4
3.8
-------�
,TD ET r €T- IEVAL TATE 75/0 f 0
‘.72302
3 07 24.u 0 6 3 31.0 3
J. - F’ C jEST ESEk 0I
‘.7037 T NESSEt
052u ’ .1
I IEPALES 2111202
Q06 FEET OE T-i CLASS 00
00010 00300 0C077 0C09 ’. 00400 00410 00610 00625 00630 00671
DATE TIME DE ’T- . IATEP DO TPA. ’4S? CNDJCTVY I AL \ NH3N TOT KJEL N02 N03 Pii0 -uI
F J’ OF Tt P StCC I FIELD CACO3 TOIAL N NTOTAL U Tr4O
T3 OAY FEET CENT IG/L INCTIES MIC ’ J,4r1O MG/L MG/L MG/L Mu/L MUlL P
73/05/21 10 20 0000 20.7 7’. 265 8.50 121 0.040 0.500 0.050 0.005
10 20 0004 20.7 11.6 260 8. O 123 0.0’.0 0.300 (,.0’.0 ( ‘.003
10 ?0 i)021 20.1 9.8 270 8.’.0 125 0.030 0.300 0.050 0.005
10 20 0035 18.2 6.6 280 8.00 132 0.060 0.200 0.270 0.008
10 20 0063 15.1 0.8 300 7.70 138 0.300 0.600 0.3d0 0.065
73/0b/lh 17 00 0000 29.1 98 21*) 7.th, ‘ 5 0.080 0.600 0.050 u.u0
17 00 0005 29.u 8.4 210 7.d.) 92 0.060 0.400 0.050 0.015
17 00 0020 27.3 4.0 217 7.30 116 0.050 0.400 0.050 0.01
17 00 0030 22.4 Q•4 250 7.00 123 0.050 0.400 0.050 0.021
17 00 0045 20.0 0.2 231 6.90 129 0.300 0.50C 0.060 0.030
17 00 0060 17.7 0.2 251 6.BC 148 1.000 1.400 0.120 0.034
73/10/2’ 08 co 0000 21.0 218 7.7) 103 0.060 0.500 0.020 0.010
08 50 0005 21.0 5.8 218 7 .?0 109 0.050 0.300 0.020 0.014
08 50 0015 21.0 6.0 218 7.70 109 0.050 0.300 0.020 0.016
08 50 0035 21.0 5.6 222 7.30 111 0.170 0.300 0.020 0.019
08 50 0048 19.3 0.1 270 7.20 151 1.260 1.600 0.040 0.029
00665 32217
DATE TIME DEPTH PrIOS—TOT ChLRPMYL
FROM OF A
TO DAY FEET MG/L P UG/L
73/05/21 10 20 0000 0.028 13.3
10 20 0004 0.044
10 20 0021 3.029
10 20 0035 0.031
10 20 0063 0.150
73/08/1 17 00 0000 0.026 5.5
17 00 0005 0.030
17 00 0020 C.CSb
17 00 0030 0.05’.
17 00 0045 0.081
17 00 0060 0.171
73/10/2’ 08 50 0000 0.023 3.7
08 50 0005 3.024
08 50 0015 0.025
08 50 0035 0.033
08 50 0 4’3 0.08”
-------�
5T . T -‘ETIFVAL ..ATE 7 /0 10
47 30J
36 0- 25.0 C56 33 15.3 3
J. EP CY P - lE T
‘.7:37 TENNE SE.
0520’ l
I lE Ai L5
oo’.; FEET
2111202
Q - T-i CLASS 00
73/Cb/21 ii 11 0000
11 11 0004
11 11 0015
11 11 0025
11 Ii 0047
73/08/17 10 05 0000
10 05 0005
10 05 0020
10 05 0035
10 05 0050
10 05 0075
73/10/24 09 0 0000
J’ 10 uOOS
09 10 uOLS
OQ 10 0030
09 10 0050
09 10 0066
00665 32217
PHOSTOT CI1L PriYL
A
MG/L P UG/L
o .o’.i
0.035
0.033
0.05’.
0.099
0.026
0.035
0.075
0.258
o • 367
0.333
C .029
.0 35
o .0”
0.047
0 • 1 7C
0.6b(.,
o OO I O
00300
Or,077
0r) 09 .
00400
TOT PcJEL
N02 .’ O3
Pr-i0S—L IS
wATER
DC
T S”
C.U’iCTVY
Pr-i
I ALI(
N—TOTAL
0 Tri ..)
T UP
CLNT
G/L
SECCP’i
INCHES
FIELD
H1C QM’-1O
SO
CACO3
MG/L
TOTAL
H /L
MG/L
M(,/L
MG/L P
DATE
TIME
DEPTI
FROM
OF
TO
OAY
FEET
73/C,/21
11 11
11 II
11 11
11 11
11 11
0000
0004
0015
002S
C047
73/08/17
10 Oi
10 05
10 05
10 05
10 05
10 05
C000
000
0020
0035
0050
0075
73/10/2’
09 10
09 10
09 10
09 10
09 10
09 0
0000
0005
0015
0030
0050
0068
DATE
TIME
DEPTH
FROM
OF
TO
IJAY
FEET
21.1
5’.
2’ 3
8. 0
0.040
0.005
21.0
tu.2
29u
8.50
1 .1
0.0.0
0.300
0.0,0
0.007
20.6
.6
290
.50
141
0.170
0.028
19.5
6.2
300
7.90
139
0.110
0.300
u.330
0.061
17.2
?.2
300
7.60
14 ’ )
1.200
0.07u
0.008
2H.C
213
8.30
0.600
0.060
0.022
27.
..7
220
8.30
101
0.060
0.070
0.044
26.0
2.6
241
7.90
106
0.120
0.090
0.020
21.4
0.0
2 - 4
7.50
156
0.800
1.500
0.090
0.017
18.8
0.0
285
7.30
162
1.220
0.13C
0.021
16.9
0.0
312
7.20
191
1.700
0.060
3.000
0.500
0.030
0.009
20.s
8’.
222
7.90
114
0.030
O.u18
20.4
6.6
221
7.80
116
0.060
0.300
0.030
0.021
20.5
6.6
222
7.70
115
0.060
0.300
0.030
0.030
20.’.
5.0
226
7.60
119
0.030
0.028
19.7
17.5
0.0
0.0
287
365
7.30
7.10
149
208
0.800
1.140
3.300
0.020
0.021
13.5
c•7
-------�
1 ET .ET EVAL 7 -/0- /iJ
..
36 33 31.0 U 3’ 20.0 3
J. cy iEST ‘ ESE 1o1—
j-
U52u 1
11 P ALES
002 FEET
2111202
DE ’T CLASS 00
7i/0S/2i 13 20 0000
13 70 0004
13 ?0 00L
13 20 0025
73/08/17 10 10 0000
10 30 0005
10 30 0015
10 30 0025
10 30 0040
10 30 0056
73/10/?’. 09 40 0000
v9 40 O005
09 40 0015
09 40 0026
00665 32217
P 1-lOS—TOT CHLRPHYL
A
MG/L P UG/L
o .04’i
0 .05o
0.067
3.093
0.05’.
( .o’ )
0.101
o • 16’
0.174
0.50 0
.051.
3
u.051
0 .069
DATE
TI’ -IE
OEPT-
FRQ’
OF
TO
DAY
FEET
73/05/21
13 20
13 20
13 70
13 20
0000
000’.
0015
002
73/0 3/17
10 30
10 10
10 30
10 30
10 30
10 30
0000
0005
0015
0025
0040
0056
73/10/24
09 ‘.0
09 40
09 ‘ 0
09 ‘.0
0000
0005
0015
0026
DATE
TIME
DEPTH
FROM
OF
TJ
DAY
FELT
DC10
C0300
0 077
00094
0040 1j
00410
00510
00625
00630
00o7
*ATLr
DO
T -c SP
C O CTVY
Ps-s
T
ALr
NH3—N
TOT rSJEL
N02 MO3
PriOS- jj
TL P
SLCC-II
FIELD
CACO)
TOrAL
s—TOTAL
0, Tr J
Cr ’ .1
‘ 4 C -/L
1NC’ ES
M1C. 0M1-l0
SD
MG/L
Mu/L
IlG/L
P IG/L
1-lO/L 1-
21.4
37
291
8. ,
1’.1
0.0’.0
0.600
0.01.0
O.UA-
21.0
.b
295
t .2)
138
0.0’.C
0.300
0.030
20.1
5 4
3CC
7.90
0.11u
0.300
0.130
18.o
.6
340
7.60
160
0.170
0.400
0.270
27.,
229
8.00
108
0.100
0.900
0.080
27.
6.0
231
8.10
107
0.080
0.800
0.07u
27.1
2..s
21.5
7.70
116
0.130
0.800
0.100
0.0’
24.’.
0.1
318
7.40
159
0.350
1.000
0.270
0.05-
21.0
0.1
313
7.30
172
0.560
1.400
0.16u
19.2
(.2
344
7.20
19
1.bOO
3.200
0.080
0.03
20.1
50
233
7.90
123
0.050
0.700
0.030
0.01
20.1
.0
233
7.90
121
0.0’.0
0.400
0.030
0.tfl
20.0
6.8
235
7.80
121
0.01.0
0.500
0.020
0.01-
19.5
.3
247
7.60
130
0.150
0.500
0.030
0.02’
12.9
9.0
K V L1IE KNO N TO 8E
LtSS 1ri .N 1Nozc rED
-------�
TJ ET ET IEvAL DATE 7- /0 /10
Fã3u ,
36 Oi ‘5.) 0 - 27 2.c 3
J. — 1E 1 t ’ L I
‘+7 1-
1 1_E.
0 ’ .3 FEET
2111202
OtfrTr CLA 5 00
73/05/2 1 13 ‘ .5 0000
13 45 0004
13 45 0015
13 45 0025
13 45 0035
13 45 0040
73/08/17 11 05 0000
11 05 0005
11 05 0015
11 05 0025
11 05 0040
73/10/24 10 05 0000
10 05 0005
10 05 0015
10 05 0027
00665 32217
P iO5-TOT CPiL Pp-IYL
A
MO/L .. UG/L
0.052
0.056
0.076
0.088
0.088
0.112
0.083
0.073
0.099
0.255
0.211
0.090
0.087
0 .08 )
U .09C
DATE
T1 IE
DEPT’-i
F JM
OF
TO
DAY
FEET
73/05/21
13 ‘ .5
13 45
13 45
13 45
13 45
13 45
13 45
0000
000’.
0015
0025
0030
C03S
0040
73/08/17
11 05
11 05
11 05
11 05
11 05
0000
0005
OOls
0025
0040
73/10/2’.
10 05
10 05
10 05
10 05
0000
0005
0015
0027
DATE
TIME
DEPTH
FROM
OF
TO
DA v
FEET
00010
003C0
00C77
0009’
00 .00
0O ’ .10
00 10
00625
00630
00671
TER
DO
TPA S
CNDuCTVY
--
I
ALK
NH3—.’J
TOT KJEL
NO2 .’iO3
Pr OS S
TEMP
sEcC’.I
FIELD
CACO3
TOTAL
N
N-TOTAL
0- tr1()
CENT
U&/L
INc’-4ES
MIC, OMr,()
U
MG/L
M(.,/L
MG/L
MU/L
MG/L
21.)
3 ’.
3u0
8.6k ,
1’+6
0.030
0.800
0.040
0.011
21.0
9.0
3 0u
8.40
146
0.040
0.500
0.040
0.010
19.8
6.4
350
7.60
158
0.090
0.400
0.360
0.040
18.3
3.4
340
7. 0
167
0.160
0.400
0.520
0.056
17.6
17.2
5.0
340
7.60
160
o.100
0.400
0.370
0.044
lb. ’.
o.0
330
7.40
159
U.0 S0
0.500
0.400
0.043
28.0
36
244
8.30
113
0.110
1.100
0.110
O.00’
27.0
10.6
249
8.00
115
0.080
0.300
0.080
0.024
26.’.
1.1
273
7.70
127
0.060
0.400
0.15C
0.06d
24.1
3.2
292
7.50
137
(.200
0.700
0.490
0.19.3
21.0
1.0
302
7. ’ .0
164
0.280
1.000
0.270
0.052
19.3
36
261
.U0
135
0.040
0.500
0.030
0.037
19.1
7.4
256
8.00
133
0.040
0.500
0.030
0.036
19.0
8.0
251
3.10
132
0.030
0.500
0.020
0.028
18.8
8.0
25’.
8.10
132
0.040
0.500
0.0 0
0.029
22.7
10.2
12.6
-------�
APPENDIX D
TRIBUTARY AND WASTEWATER
TREATMENT PLANT DATA
-------�
T.)PE1 NET IEVAL DATE. 7b,0-/
•.flbA 1
6 ,7 50.0 086 39 22.0
CJ B€.cLANU jvE
‘.7 7.5 L,ooDL rT v1L
I/C-i ATr1A 1 ‘ ES vOH 052031
AT OA JUST ELO OLI) ICKO I)AM
1112C’.
0. 0 ) FEET DE’ T ’ CLASS 00
00630 00625 0 610 00671 00665
DATE TIME DEPT-I NO2 NO3 TOT KJEL N13-N Pr OSOIS PHOSTOT
FROM or N—TOTAL N TOTAL OPTilO
TO DAY FEET MU/L MG/L MG/L MC’/L P MG/L P
73/Q /L’. 0 ?O 0.330 2.300 0.039 0.018 0.U ,0
73/05/04 10 25 0.273 0.400 0.017 0.052 0.125
73/06/11 11 15 0.300 1.260 0.023 0.017 0.u80
73/07/26 15 00 0.210 0.280 0.022 0.015 0.060
73/08/15 10 25 0.190 0.480 D.0’.4 0.036 0.030
73/09/03 10 35 u.650 0.520 0.063 Ø.Q44 0.090
73/ 10/ I’ 10 IS (i,300 0.300 0.035 0.028 0.030
73/11/03 10 30 0.180 0.400 0.058 0.021 0.100
73/12/02 08 ‘0 0.470 0.500 0.040 0.068 0.200
74/01/0 10 Is 0.470 0.’.00 0.020 0.058 0.d lO
74/02/03 10 05 0.410 0.400 0.025 0.015 0.095
74/02/19 11 oO 0.600 0.800 0.035 0.015 0.085
74/03/03 09 45 0.440 0.400 0.025 0.025 0.075
-------�
ST ’ET T 1E 4L )ATE 7 /r /
‘.70oi 2
35 19 13.0 087 13 22.0 4
LUMd LANO IvEP
47 7. Cr1EAt’1A OAM
O/C EATu4AM SE VC)1 0,20 1
Ar o JUST ELO CrItATrIAM DAM
11EAL 5 2Lu1 0’
0000 FEET 0E ’Tr CLASS 30
00630 00625 00610 0C,671 00665
DATE T1” OE”rri N02 .NO3 TOT ‘SJEL NH3—t PhOS-DIS P, 0 —T0T
F o’ OF -TuTAL TOTAL ORTHO
TO DAY FEET lG/L MG/L i&/L MG/L P MG/L P
73/0’./1’ 13 50 Q,J7 0 0.640 0.026 0.042 0.10’
73/05/0’. 13 IS o.39 1.470 0.105 0.176 0.650
73/06/11 13 30 0.330 0.500 0.034 0.042 0.165
73/07/26 08 20 0.260 0.380 0.046 0.06’.
73/08/15 13 10 0.240 0.520 3.078 0.102 0.180
73/09/0 13 40 0.280 0.’, 0 0.110 o .07b 0.145
73/10/14 12 05 0.280 0.550 0.105 0.071 0.15 j
73fl1/03 13 20 0.250 0.400 0.096 0.055 0.160
73/12/02 1 ) 30 0.460 1.200 0.064 0.084 0.360
74/01/06 12 40 0.520 0.300 0.040 .092 0.270
74/02/03 12 15 O. ’ .60 0.200 0.020 3.045 0.260
74/02/19 13 45 u.31 ’.) 0.200 0.030 0.070 0.1S O
74/03/03 11 45 0.460 0.300 0.035 0.050 0.115
-------�
13ET r E ’iEdAL DATE 7h/09ft
470bd1
36 .16 Sô.0 0S7 1’ 31.0 4
jJi \SON C -EE’
‘ .7 7.5 CriEA1-’ M QAM
T/CHEATP-4AM ES 0S20 1
t) )G 2 M SE OF COAL1 G
11E 4 .S 21112C ..
0000 FEET DEPT— CLASS 00
00630 00625 0C61 0 00671 00665
DATE T1 4E DEPT-i NO2 O3 TOT KJEL NH3—N PriOS— )IS PpiOS—TOT
FR)M OF NT3T L N TOTAL (fl TP1O
To DAY FEET MG/L 4G/L Mi3/L MG/L P MG/L
73/04/14 13 35 0.105 1.260 0.009 0.005K 0.010
73/05/0’. 12 50 0.210 0.900 0.023 0.010 0.020
73/06/ IL 13 is 0.120 0.750 0.023 0.009 0.020
73/07/2 ’ 08 OS 0.290 0.310 0.021 0.011 0.020
73/OB/1S 12 5 0.200 0.3 O 0.016 3.020 0.022
73/09/OS 13 2S 3.126 0.30C 0.u19 0.006 0.015
73/10/14 11 c, 0.04’. 0.200 0.017 0.012 0.012
73/11/03 12 05 0.024 0.350 0.016 0.005 0.040
73/12/02 10 20 0.588 0.400 0.068 0.016 0.030
74/01/06 12 30 0.500 0.100K 0.012 0.010
74/02/03 12 00 0.330 0.100K 0.010 0.005K 0.005K
74/02/19 13 30 2.200 0.300 0.032 0.010 0.040
76/03/03 11 30 0.120 0.200 0.015 0.010 0.010
K /ALUE ,c’JOWN TO 8E
LESS Tt-iAN INDICATEi)
-------�
STOQtTT ErR1EvaL OATE 7- /O’/0
4 ?06C1
36 ii 32.0 0b7 10 00.0 ‘ .
A’J T
0ICr Su CL) TN M.
T/C- EAT M ES 0520 1
614 i i)G I MI N OF r4A &ETr4 ‘ALLEY
11E.PALES
0000 FEET OEPTri CLASS 00
00630 00625 006)0 00671 00665
DaTE TIME DEPT,1 • O2 NO3 TOT KJEL Nr13—N PHOSDIS PROSTOT
FRO’ uF N—TL)TAL N TO7AL ORTHO
TO Jai FEET Mu/L MG/L Mi,/L MG/L P MG/L P
73/04/14 14 40 v.550 0.430 0.005K 0.15’. 0 .200
73/05/0’. 14 00 0.340 1.540 0.024 0.2’ 0 1.3 50
73/06/1 ! 14 15 .690 0.400 0.027 0.210 0.430
73/07/2. 07 20 0.399 0.500 0.016 0.180 0.420
73/08/15 13 50 0.6 8 0 0.440 0.025 0.430 0.980
73/09/Os 14 20 0.010K 0.5’,O 0.010 0.210 0.350
73/10/1’. Ii 55 0.039 0.350 0.010 (,.220 0.366
73/11/03 14 10 0.017 0.200 0.009 0.260
73/12/0? 11 18 1.300 0.2C0 0.020 0.260 0.440
74/01/06 13 25 1.Oq O 0.400 0.008 0.208 0.440
74/02/03 13 00 0.528 1.300 0.015 0.240
7 ’ ./ 2/)- 1’. 30 2.300 0.300 0.030 0.020 0.300
74/03/03 1? 30 0.670 0.200 0.015 0.165 0.230
K VALUE KNOWN TO E
LESS THAN INDICATED
-------�
STJPET ‘ ET iE AL DATE 7b/O/0
470 ôi.) 1
36 07 55.0 0 & 55 25.0 4
UVE- ALL
47 OAVIUSu’ . CU MAP
T/CrfEAT iAM S 05201
S C O d , .3 • iJ E OF GORE—
liE ALES 2111204
0000 FELT [ )EPTr CLASS 00
00630 00625 00610 00671 00665
DATE TI”E DE T-i N02 NO3 TOT KJEL NI-13—N iOS-UIS i0S—T.JT
FROM OF —T0TAL TOTAL ORTPiO
TO DAY FEET MG/L MG/L IC’/L MG/L P HG/L P
73/04/14 15 45 0. lbd 0.440 0.038 0.089 0.200
73/05/0’ 15 00 0.340 0. 10 0.052 0.093 0.200
73/06/11 15 15 0.056 0.840 0.066 0.J56
73/07/26 10 25 0.240 1.000 0.032 0.220 0.640
73/08/15 1g.. 30 0.300 0.069 0.210 0.470
73/0’)/0 15 10 0.115 1.150 0.105 0.068 0.345
73/10/1 ’ . 14 30 C..075 0.650 ( ‘.081 0.115 0.345
73/11/03 14 50 J.15 0.650 0.076 0.S00
73/12/02 11 50 0.620 0.800 0.068 0.252
74/01/06 14 10 0.7 0 0.500 0.068 u. 156 0.330
74/02/03 13 40 0.480 0.600 0.070 0.185 0.660
74/02/19 15 30 2.640 0.900 0.03v 0.110 0.525
74/03/03 13 15 0.650 0.700 0.110 0.110 0.190
-------�
STJ ET ‘ ET 1EV L OAT lb/09/04
( 47 06c.l
36 0 05.0 086 51 15.0 ‘.
‘ .ICrILAND - Et
47 1.5 1LLE.
T/Ci-iEATr4AM . ES 052C1
hwY 2’. dROG TEA USGS (,AGINC, TATjOr
1 1 r 4LES
000C FEET O r Tr CLASS 00
00630 00625 00610 09671 00665
DftTE TNE D [ Tr N02e .N03 TOT IcJEL N 43—N .4OS—C IS ‘h0S—T DT
FR3A JF N-TuTAL N TGTAL Oc rrio
To )AY FEET M(,/L ‘IG/L M/L MG/L ‘ MG/L e
73/.4/1’ 16 00 0.260 0.150 0.007 0.150 u.11
73/05/0(4 13 IS 0.890 0.280 0.008 0.252 0.29 5
73/06/11 15 25 0.530 0.630 0.024 0.240 0.380
73/97/26 10 40 0.820 0.500 0.021 0.400 0.720
73/08/15 14 40 1.420 0.420 0.018 0.350 0.390
73/39/08 15 ‘5 0.360 0.5 20 0.0 ’. 0.231 0.313
73/10/1’. 14 45 0.190 0.450 0.019 0.240 0.520
73/11/03 15 13 0.510 0.250 0.330 0.228 0.315
73/12/02 12 00 2.003 0.500 3.038 0.300 0.330
74/01/06 -. 14 30 1.800 0.400 0.024 0.276 0e ’.90
74/02/03 14 0° 1.260 0.200 0.015 0.270 0.330
74/02/19 15 40 3.276 0.400 0.015 D. .50
74/03/03 13 30 u.910 0.300 0.017 0.225 0.270
-------�
,T ) .’ET ETPIEIAL DATE 7- /09iO9
4706F 1
36 0 15.0 C 6 07 02.0 4
-,- 0MNS C E
47 7.S . r z S .iv1LL .
T/Cr1Lj TH M ES 052 .i91
Hwy &. US -4 70 t3 t)G NEAR C LIA T C [ Hc.T
11E ALES 211i2 ’.
OoOO FEET DtPT- CLASS 00
00630 0062 u0610 00671 00665
DATE TIRE nEPT- ’ NO N03 TOT KJEL N’13—I PHOS—DIS PhOS—T)T
F 0M OF Y —TOTAL TOT . ORTHO
TO 1 )AY FtET MG/L MG/L Mc,/L MG/L P HG/L
73/0’./L’ 08 45 1.900 1.320 0.460 0.120 0.31 ,
73/35/04 09 15 2.200 0.670 0.313 0.132 O.4 0
73/Oo/L.1 10 00 1.540 2.300 0.560 0.690 1.350
73/u7/26 13 25 1.500 1.730 0.080 0.315 1.030
73/fl8/15 09 20 2.30) 0.835 0.470 0.360 0. 7S
73/09/08 09 35 0.770 1.7 ,0 0.705 0.160 0.740
73/10/1k. 09 15 0.810 1.000 0.300 3.220 0.455
73/11/03 09 30 2.500 0.950 0.430 0.220 0.460
73/12/01 09 15 2.700 1.400 0.280 0.240 0.840
74/01/06 09 00 2.800 0.703 0.168 0.240 0.480
74/J2/03 11 30 0.900 1.100 0.270 0.270
74/O2/1 - 10 00 0.330 1.000 0.020 0.680
74/03/03 09 00 1.680 1.800 0.500 0.135 0.250
-------�
STDPET ET !EVAL DAT 7 ”o? / ;
473bG1
36 0 50.0 41 b.0 4
UJLL C- E
‘.7 7.5 1 N. 5riv1LLE
T/Cr.E. Tr4AM ES 0 5201
24 US .-l ’ 70 .5 Mj N MUDTAVEI N
11E ALES 211120’.
0C00 FEET DEPTri CLASS 00
00630 00625 OcolO 00671 0O66
DATE TPIE OEPT-I N02&N03 TOT KJEL Mi3 k . PHOS—QI PHOS—TOT
FR i OF N-TOTAL N TOTAL
T3 OAY FEET HG/L “iG/L MG/L MG/L P MO/L P
73/ , ../1 ’ . 09 05 0.520 2.400 0.051 0.22u 0.330
73/05/0’. 09 25 0.670 1.470 0.072 0.260 0.430
73/06/U 10 05 0.650 1.380 0.024 0.300 0.400
73/07/2 13 40 0.630 0.930 0.017 0.515 1,154
73/O /1S 09 30 1.02) 0.660 0.058 0.490 1.400
73/0 ?/0H .)9 45 0.399 1.000 0.105 0.360 0.900
73/10/1 ’. 09 25 0.820 0.650 u.0 58 0.550 1.d SO
73/11/03 09 40 0.600 O. 50 .310 0.500 0.680
73/12/01 09 25 1.600 0.300 0.036 0.320 0.440
74/01/06 0 ’ 05 1.360 0.400 0.028 0.300 0.440
74/02/02 11 15 0.460 2.000 0.055 0.300
74/02/19 10 09 0.580 0.400 0.045 0.680
74/03/03 09 05 0.680 0.400 .025 0.260 0.’.40
-------�
STJRET RETRIEvAL OATE 7b/0 /G9
47U611
36 11 14.0 0 3c 0u.0 4
STOt .E ,.eI
7.5 £ JLS 1LL.
T/Cr Tr14P 0520-’l
- ‘Y 2’ uS 7Q B—O( S OF p-4E MITA(,E i-il
11 ?AL S 2i112u
000 ) FEET OEPIrI CLASS 00
00630 00625 0 1610 00671 0066
DATE TI lF DEPT-i ‘JO NO3 101 P JEL Nri3—N PliOS—DIS PplQS—TOT
FI OM OF N—TOTAL TOT OPTrIO
TO DAy’ FEET MG/L ‘IG/L M(,/L MG/L P MG/L ?
73/04/14 09 25 0.440 3.100 0.105 0.0b2 0.100
73/05/04 09 40 O. 2O 1.500 0.065 0.046 0.080
73/ s6/11 10 ?0 0.147 0.500 0.035 0.036 0.060
73/07/26 14 00 0.580 0.980 0.008 0.360 0.510
73/08/15 09 45 0.830 0.820 0.090 0.410 1.1 )
73/0 /0P 10 00 0.43 2.100 o.273 1.040 1.500
73/10/14 0 35 0.056 1.0’)0 0.480 0.240 0.440
73/11/03 09 50 0.026 0.550 0.210 0.050
73/12/01 10 00 0.148 0.500 0.096 0.024 0.070
74/01/Ob 09 35 0.480 0.400 0.056 0.096 0.130
7 /02/02 11 46 0.600 0.950 0.065 0.125 0.200
74/02/19 10 20 0.420 0.300 0.105 0.110
74/03/03 09 15 0e680 0.900 0.055 0.130 0.200
-------�
STJRET —LT IEvAL DATE 7t/0 ./J9
4700J1
it> 1 41.0 036 ‘C) d2.0 4
MAS ( C’ EE
‘7 7.s GUOüLE1TSw IL
T/C-1EAT -iAr . E5 0520 1
US ,wy 31 Y 6 1.5 OF L)C LA O
11E ALES 2l11 0’e
0000 FEET t) PTrl CLASS 00
30630 0062 5 00b10 00671 00665
DATE TIME DEPT- NO2bNO3 TOT KJEL NH —N PiIOS—DIS PhOS—TOT
FR3 OF n-TOTAL N TOTAL ORTHO
TO DAY FEET MC,/L MG/L MG/L MG/L P M&/L °
73/04/14 10 00 0.078 2.425 0.062 0.066 0. 00
73/05/04 10 10 0.430 0.250 0.016 0.050 0.085
73/06/U 11 00 3.300 0.’.80 0.029 0.077 0.210
73/07/26 14 45 0.670 1.050 0.061 0.220
73/08/15 10 10 0.190 o,seo 0.042 0.170 0.360
73/09/0 10 25 0.072 0.810 0.021 0.150 0. 7S
73/10/14 10 03 0.200 0.630 u.260
73/11/03 10 15 0.231 0.350 0.039 0.194 0.315
73/12/02 08 30 0.810 0.600 0.036 0.205 0.300
74/01/0 0.870 0.500 0.018 0.108 0.175
74/02/02 13 00 0.430 0.600 0.020 0.065 0.12u
74/02/19 10 50 0.430 0.200 0.035 0.035 0.115
74/03/03 09 30 0.330 0.’.O0 0.020 0.065 0.150
-------�
,TJr ET CT IEv L )ATE lbio;/oc,
70orc 1
36 12 1S.C 0 6 51 10.0 ‘
-• iT :s
7.5
T/C T-i .i AES
r 12 A ( I 41 N. OF O iE uX
ILt-’ALES ll12 .
3000 FEET 3E T- CLASS )u
00630 00525 00510 0)671 006b5
D .TE 1I E )E°T- NO2 .NO3 TCT KJEL N-i3-N PHOS- 1S ? -iOS—IOT
FPO ’ OF —TOT L N TOTAL uPT’ O
T i EA FEET G/L ‘IG/L M( /L MG/L
73/04/14 11 05 C.2’ 0 1.150 C.025 0.147
73/05/0’. 11 00 3.500 0.460 0.022 0.140 0.195
73/06/11 11 50 0.633 0e390 0. O IE 0.220 3.315
73/V7/2 10 30 C.7 50 0.250 0.017 0.260 0.3b0
73/08/IS 11 0.660 0.540 0.029 0.420 0.61c
73/09/0’ 12 00 0.340 0. 00 0.029 1.050 1.3 0( ,
73/10/1-. 10 45 2. loO 0.600 0.052 2.9 0C’ 3.4 5C
73/11/03 11 20 0.490 0.450 0.021 0.751 0.92C
73/12/02 09 20 1.680 0.530 0.072 3.28 0.330
74/31/06 10 ‘.0 1.340 0.225 0.012 i.168 0.220
74/02/03 10 40 O.b 0 0.303 3.020 0.180 0.310
76/02/19 12 00 0.710 0.7 0 3.0’0 0.250 0.640
74/03/03 10 25 0.588 0.400 0.035 0.230 0.300
-------�
ST)- ET T TFVAL L,ATt
‘.7 )t)L1
35 1’. 30. J 7 01 30.0 ‘.
. I ) C E
- .7 C E T ’A C .
T/C-itATrtA1 ES 0,2091
P• ’Y 1? t)t I ‘1 OF MO, O F,ONE
11E AL S 1 112O.
000C FEEJ L) - tH CLASS,00
i 10630 OQ s?5 0 6l 00571 006 i
DATE TIME DEPT- ‘402&N03 TOT PcJFL N.i3 Prl0S IS r OS-TJT
F 0 ’4 O NTOTAL N TOTAL O Tr1O
TQ D y FEET 1(,/L MG/L M:,/L MG/L MG/L
73/04/14 11 30 .1’.7 1.f’00 (‘.018 0.006 0.010
73/05/04 11 15 v.120 0.265 0.008 0.OOR 0.01 ’5
73/06/U 12 0 3.150 0.240 0.050 0.014 0.015
73/07/26 09 35 0.330 0.370 0.029 0.023 0.040
73/08/1 11 15 C.10S 0.360 0.033 0.019 0.0 0
73/09/O 1? ?0 0.07, 0.500 O.00S ( 0.012 J. 035
73/ 10/1 ’ . 11 on 3.05’. 0.200 0.020
73/11/03 0.0 ’. 0.200 0.012 O.00 5K
73/12/02 09 3S 0.600 0.500 •).048 0.018 0.017
74/01/06 11 On 0.550 0.300 0.032 3.016 0.01
74/02/03 11 00 0.2 ’ ’. 0.600 0.C2u 0.005 0.020
7 4 /02/IQ 12 70 0.136 0.100 0.015 0.012 0.020
74/03/03 10 45 C.13 0.600 0.010 0.005K 0.005
K V. LUL KNOWN TO t
LESS TrIMN INDICATE)
-------�
T)T EI-I V L 3ATt. 7 ’/09/)9
.7 1 :6 1
3 19 22. 0 7 05 32.0
YC- )p E [
7. A ’ u C1T
1/Cr E Tp,AM .?ES 052 1 : 1
t) 6150 N., • Mj ‘ l)F r,ETMLLrIEM Cl1u C
11E ALES 211120—
0000 FEET O PT Ct -ASS 00
0630 0062 O Oe ’ lO 00671 00b6
Q TE TJ’ F O [ ?T- N0 . ’ O3 TOT KJEL I .r 3N Pr OSO1S P0S—TOT
FRQ’.i iV ‘.—TUTAL N TOTAL (JRThO
TC u ( FEET HO/L MG/L Mt,/L MG/L P MG/L i-
73/04/1. 1? 30 .3b0 0.930 o.o2o 3.005K 0.005”
73/05/0’. 11 35 3.520 0.270 C.008 0.010 0.025
73/C 6/11 12 35 0...90 0.310 0.048 .009 0.020
73/37/2 uQ 00 ‘).430 0.260 0.023 0.019
7 /CB/1 11 60 C.360 0.300 “.u 17 ).013 0.030
73/09/0’3 I? 35 i.200 1.3?0 ).007 v.011 0.O2
73/IC/1 . 11 15 0.110 0.150 0.009 0.020
73/ll/Q3 1220 0.115 0.100K 0.010 0.035
73/12/02 09 50 1.010 0.400 3.064 0.012 0.030
74/01/06 11 ‘.0 0.950 0.300 0.020 0.016 0.Q1
7 ’ ./O?/03 11 15 0. 58o 0.430 0.015 3.010
74/02/1 12 40 0.36u 0.130 0.315 0.005 0.005
74/03/03 11 00 0.480 0.700 0.015 0.015 0.015
K VALUE Ki OWN TO E
LESS T’-IAN INDICMTEO
-------�
ST.) T 4ET—J vAL .4TF 7 /O9/u9
— 706.1
36 I Sc,.G c. i o .;.o
—Ir t C— c
47 ‘. S— ’ .u C l i f
T/C- c.AT-i. - $ 052 0S’l
-) i’ .6 I SE or LOCK TSV1LLE Crl j- C
11. Lc S i1 12C.
U)0 FEET iE T— CL .SS 04J
Q0630 ‘)06? 00610 00671 00665
DATE T1’ E NO2 NO3 TOT KJEL N 3— PriOS —PIS C —T0T
F O Of —TOTAL N TOTAL OPIMO
ID u Y FEET l 1&/L ‘IG/L MG/L 1c,/L
73/ 4/14 1? -.5 ( ,.8o0 1.150 .013 3.005K 0.010
73/05/34 11 45 1.0’e0 0.1 0 0.009 0.011 0.050
73/1 ,6/11 12 45 1.0 ) 0.100K 0.01F 0.009 C.01
73/07/26 09 15 0.850 0.170 0.009 0.013 0.020
73/08/15 11 S 0.8 0 0.140 u.012 0.013 0.02u
73/39/’3I 1? 4C 0.S?0 0.650 .01 ’ 0.010 0.Od O
73/ 1 0/ I ’. 11 ‘0 ).A .3 0 0.550 0.019 3.023 0.025
73/11/03 12 25 .399 0.150 D.00 0.005 0.035
73/ 12/02 09 55 1.260 0.300 0.036 0.020 0.03
74/01/00 11 45 1.360 0.100 c.012 0.016 0.016
74/02/03 11 ?0 1.040 0.700 0.020 0.005K 0.015
74/’) .?/1 12 50 0.940 0 . 1 30K 0.015 0.005
74/03/03 11 05 0.950 1.750 0.075 0.005 0.015
K uLUE KNOW’%I To
LI SS IHAN l’ 1OIC ’ .TED
-------�
ST)RET Q T41EvAL tJATE Th/09/09
p003 ii ci
3 16 15.0 087 0. 26.0 4
AS-’LA”iO CI’
47 7.5 AS-4LANu City
T/Cri THA A ESEPv )IQ 0S2u9
C P LAND p 1VER
11E ALES 2141204
0000 FEET O Trt CLASS 00
00630 G0625 00610 00671 00665 50051 50053
DATc TIPiE OEPTrI NO2 .N03 TOT KJEL N 43—N P,iOS-OIS Pi -sOS-TOT LO CONOUIT
F 3M OF N—TOTAL TOTAL URTIIO RATE FLOw—MGD
I ii JAY FEET M(,/L M /L MG/L MG/L P -lc,/L -‘ INST iGD MONTrILY
73/07/23 11 30
C°(T)— 12.600 1.400 0.950 12.800 13.530 0.500 0.500
73/07/23 15 I 0
73/09/27 39 30
CP(T)- 4.950 2.060 19.000 21.000 0.400 0.400
73/38/27 15 30
73/10/2? 09 45
CP(T)— 27.000 3.300 1.730 15.’.00 18.000 0.660 0.650
73/10/22 15 45
73/1I/?6 08 00
CPU)— 5.500 15.500 0.120 5.100 9.000 0.472 0.503
73/11/2b 16 00
73/12/24 08 00
CP(T)— 6.600 7.700 0.420 5.500 8.100 0.560 0.600
73/12/2’. 14 00
74/02/25 08 00
CPU)- 5.520 8.200 0.300 3.120 5.600 0.500 0.500
7 ’ ./02/25 1 00
74/04/08 08 30
CP(T)- 3.840 2.400 0.130 2.300 3.300 0.694 0.450
74/04/OR 16 30
74/06/24 08 00
CP(T)- 7.100 2.900 0.230 7. 0O 6.530 0.200 0.300
74/06/24 16 00
74/07/31 09 00
CPU)— 13.600 4.400 0.180 8.600 9.900 0.327 0.325
74/07/31 16 00
74/08/30 10 30
CP(T)- 0.080 14.000 0.050K 0.089 9.900 0.545 0.300
74/08/30 16 30
7 ’ ./09/30 Od 00
CP(T)— 3.100 7.000 0.094 2.700 3.600 0.700 0.650
74/09/30 16 00
74/10/31 10 00
CP(T)— 9.000 7.300 ).356 6.880 7.700 0.400 0.400
74/10/31 14 00
Ic /ALUL c IO . N It dl.
LE! S THAN INOICATEL)
-------�
T)QET ETP JE AL DATE 7 /oS,
‘.7 ThAa AS’.7U AA 00317 )
lb 1S.0 oai 0’. 5.0 4
A .—LANi) CV”
47 7.b A rLA CITY
T/CriEAtrIA 4 E5E .OI 0 20’fl
CUERLAj . - ‘IvEF
1IE. L S 1’.L2.)’.
O OO FEET DE Tr CLASS 00
OC.630 00625 QoelO 00671 C066 5 50051 50053
DATE TIME O [ T-i NO2 .NO3 TOT ‘cJEL NH3—N Pr’OS—l)IS PHO —TOT VLO CONDUIT
F OM OF N-TOTAL N TOTAL OPTriu RATE FLOw-MDO
To DAY FEET MG/L G/L MG/L MC./L r MG/L . INST MGD MONT-4LY
7’/1l/2P 10 00
CP(T)— 0.400
74/l1/2e 19 00
-------�
STO?ET ET ’IEVAL )ATE 7 /0;/09
‘.706Ar3 4S’ .7ObAd P450000
36 11 10.0 O 6 ‘.7 15.0 4
NASrIVILLt. M\IN PL’ ”4T
- .7 7.5 NASH IILLt. W
T/C 1EATMAM ESERVOI OE ,2091
COEP LA?’ D IVE
11E ALES 214120’.
0000 FEET DEPTr CLASS 00
00630 00625 00610 00671 00665 50051 50053
ATE TIME OE T-i NO? NO3 TOT ,(JEL Ni3— iOS—OI PHOS—TOT FLOe CO’JOUIT
F 0M OF —TOTAL N TOTAL ORTriO RATE FLO —MGO
ro AY FEET MG/L MG/L MG/L MG/L P M0/L P INST MGD MONT’ LY
73/05/30 00 00
C T)— 1.370 8.100 0. 70 P.500 3. 00 58.900 57.000
73/05/30 24 00
73/06/01 00 00
CP(T)— 1.730 8. 00 0.299 1.010 2.700 60.900 57.700
73/06/01 2’. 00
73/07/01 00 0’)
CP(T)— 5.200 8.600 0.350 2.850 3.700 55.300 52.000
73/07/01 24 00
73/08/01 00 00
CP(T)— 2.300 6.700 2.200 3.035 43.700 48.800
73/08/01 24 On
73/09/01 00 00
CP(T)— 2.9 )0 11.000 2.280 3.600 32.700 44.000
73/09/01 24 00
73/10/01 00 00
4.100 12.500 3.700 4.700 45.800 36,600
73/10/01 24 0 )
73/1 1/05 1.680 9.150 0.082 2.940 3.900 48.400 40.400
73/12/U 3.120 9.900 0.084 2.600 4.100 35.000 48.400
74/01/01 1.560 5.600 C.150 1.480 2.200 27.000 31.700
74/01/31 1.280 5.800 0.180 2.640 3.300 32.000 28.000
7 ’ ./02/28 1.400 7.400 0.150 0.7 0 1.700 54.200 55.300
74/03/31 2.800 3.700 0.067 1.850 2.200 52.600 55.700
74/05/01 0.800 12.250 .580 1.250 1.650 50.100 53.000
-------�
ST RET TR EVAL L)ATE 7 /O9/O9
‘.7ObAC AS ’.706AC P0404’.0
36 17 22.0 08 ’ .1 20.0 4
LA -i ILLE Y C EE ( PLA. T
‘.7 7.5 G000LETTSWIL
T/CMEATIIAM . ES€PvOI 0520 1
CUM8ERLANL) DIvER
11E ALES 214120’.
0000 FEET OEPT-i CLASS (JO
Ovb3 O 006?5 03610 00671 00665 50051 50053
ÜATE TIME DEPT-I r O2 NO3 TOT KJEL Nr13—N PHOS—DIS PMOSTOT FL 3w CONDUIT
FROM OF N—TOTAL N TOTAL ORTHO RATE FLQw—M(jD
TO U Y FEET P4G/L MG/L MG/L MG/L P P46/L ? INST MUD MONTPILY
73/05/30 00 00
CP(T)— 5.500 1.800 0.790 4.700 5.000 3.900 3.000
73/05/30 24 00
73/Ob/0t 00 00
CP(T)— 6.360 2.600 i. ?6 9 6.530 7.200 4.200 3.000
73/06/01 24 00
73/07101 00 00
CP(T)— 5.500 10.500 0.590 8.400 10.000 2.950
73/07/01 2’. 00
73/08/01 00 00
CP(T)— 9.100 3.600 0.700 3.450 9.d90 2.700 2.’.50
73/08/01 24 00
73/09/01 00 00
CP(T - 16.000 1.200 0.640 10.000 13.500 1.700 2.180
73/09/01 24 00
73/10/01 00 00
C (T)— 16.400 5.500 0.310 11.850 12.020 2.200 2.100
73/10/01 24 00
73/11/05 09 00 12.200 3.300 0.132 7.000 8.000 3.600 2.100
73/12/11 14.400 3.200 0.140 .300 10.000 1.800 3.500
74/01/01 7.800 1.150 0.080 3.840 5.780 2.600 3.300
74/01/31 1.520 6.100 0.230 5.200 7.200 3.300 3.300
7 ’ ./02/2 1.400 6.700 0.140 6.500 8.875 2.300 3.100
74/03/31 3.600 4.200 0.230 6.700 1.800 2.600
74/05/01 ‘..700 10.000 0.330 14.000 17.000 2.500 2.600
-------�
ST) E 1 ETPIEvAL DATE 7e’/09/09
DATE
F• P OH
TO
73/08/01
CP ( T) —
73/06/01
73/09/06
- CP(T)—
73/09/06
73/10/17
CP(T) -
73/10/17
73/1 1/06
CP ( T) -
73/11/06
73/12/17
CP( T) -
73/12/17
74/02/1
CP (7) -
74/02/11
74/03/15
CP(T)—
74/0)/15
74/34/10
74 / 05/0
CP ( T) -
74/05/08
74/06/1?
CP( T)—
74/06/1?
74/07/10
CPU) —
74/07/10
74/08/1? 10 00
74/09/23 10 00
CP (7) —
74/09/23 14 00
47 06AD A ..7O6AU P010591
36 15 18.0 086 35 25.0 4
OLL) t-’LCKJ?’
7.5 GJOOLETTSVIL
D/C8EATHAi - ESERvOI 0 520 -1
CrIEATHAM RESE JOI
I1EPALFS 2141204
0000 FEET OEPT, CLASS 00
00630
00625
OOo lO
00671
006b 5
50051
50053
TIHE
DEPTI
‘ 4O2 NO3
TOT JEL
Nr13-’ J
.iOS-D1S
O Q5_TQT
FLOW
CONDUIT
OF
4—TOTAL
N
TOTAL
O T -iO
PATE
FLOW—M(,1)
DAY
FEET
MG/L
4G/L
HG/L
H( /L P
MG/L P
INST HGD
HONT iLY
11 00
7.800
3.900
1.900
5.800
6.600
0.780
0.690
16 00
11 00
8.400
7.100
3.140
9.220
0.714
0.910
15 oo
10 00
11.800
2.980
1.470
7.000
7.250
0.650
0.585
14 00
10 00
9.300
0.615
0.210
5.000
5.400
0.736
0.631
14 00
10 00
10.800
5.450
‘.100
7.600
9.530
0.562
0.620
14 00
10 00
8 .c 00
3.000
1.250
.650
7.600
0.980
0.793
14 00
10 00
3.000
1S.000
5.800
5.500
8.400
0.733
0.792
14 00
6.600
4.700
1.430
5.000
6.200
0.746
0.647
10 0
12.600
8.200
3.700
7.800
8.800
0.644
0.760
15 00
10 00
d.500
3.700
0.800
4.200
4.900
1.190
0.744
14 00
10 00
lt,.900
4.700
1.400
7.700
8.400
0.684
0.900
14 00
10.200
2.600
0.52
4.750
b.200
0.514
0.680
14.410
4.700 0.624 6.820 7.950
0.460 0.587
-------�
5T ET - ET Iri L ¶)ATE 1o’c’,’o
.7 06AA TF4736x
OO6 23
36 14 00.0 086 ‘.8 07.0 4
A ( O0D S v. CUV ANY
47 7.5 S VLL.Lt. 0.
T/C iEAT -iAM
0520i1
E.ING C’ EE,(
1lE ALcS 21’.120’.
0000 FEtT OEPTM CLASS
00
00’530
00625
00b10
00671
00665
50051
50053
DATE
TIME
DE°T-
NO2 .NO3
TOT i JEL
N -13-N
PriOS—DIS
hOS—TUT
FLOW
CONDUIT
FROM
OF
N—TOTAL
N
TOTAL
O THO
RATE
FLOi—MGO
TO
OAf
FEET
MG/L
MG/L
M,/L
MG/L P
MG/L ?
INST MC’O
MONTHLY
73/06/It
00 00
CPU)—
S .2u0
5.600
0.059
6.500
7.100
0.613
0.675
73/06/11
2’. 00
73/07/16
00 00
CP(T)—
8.100
1.400
0.230
11.600
12.000
0.337
0.399
73/07/16
2’ flO
73/O8/2
12 00
CP(T)—
4.900
1.600
0.040
12.900
14.000
0.301
0.370
73/ua/23
12 00
73/09/14
00 00
CPU)—
5.000
2.200
0.290
10.300
11.000
0.620
0.650
73/09/14
24 00
73/10/09
00 00
CPU)—
11.600
2.600
0.230
14.350
14.650
0.344
0.346
73/10/09
2 00
73/11/14
00 00
CP(T)—
3.700
0.910
0.360
13.020
13.820
0.335
0.385
73/11/14
24 00
74/01/24
00 00
CP(T)—
2.640
1.500
0.240
4.900
5.250
0.600
0.550
74/01/24
24 00
74/0 ?/2O
1.840
5.500
3.120
6.000
7.2 O
0.692
0.500
74/ )’./09
00 00
CP(T)—
1.920
4.900
Q .O5UPc
4.000
5.900
0.650
0.600
74/04/09
24 00
74/05/20
00 00
CP(T)—
4.000
9.200
0.290
11.500
14.000
0.355
O.’.00
74/05/20
24 00
,c V .LUE ,
-------�
ST E.T ETQIE AL DATE 7 /09/t
P006000
- 4 70€ A TF 7Q vA
3’ 10 00.0 086 3 15.0 4
S- V1LL /C - 1 E LAN1) 1
7.’ .AS -i 1LLE. E
T/CrILATrIA4 ESE VCIk 0 091
sro i s C EE-/STONE S
-------�
T ET RETP1E.I L L)ATE 7”/04/C9
oo 150
TF’.7O6Y
3 09 50.0 086 37 15.0 4
S 1VILLE,CJ E L4 D 2
7.5 iASh 1LL . E
T/C- EATr AM ESE V.-?I 052091
STO’ ERS CREEk/STUN RS PIvEP
I IE?MLLS 214i2o .
0000 FEET DEPTP- CLASS 00
00630 00625 00610 00671 00665 50051 50053
O TE TI ’E DEPT1 N02 NO3 TOT KJEL N -I3—N PriOSOIS PHOS—TJT FL0 CONDUIT
FROM OF N-TOTAL TOTAL ORThO RATE FLOA—MGD
TO DAY FEET MG/L M6/L MG/L MG/L P MG/L P INST MGD MONThLY
73/08/14 08 30 2.0’C 5.100 0.126 4.620 11.600 0.149 0.1a0
73/09/14 10 00 7.900 3.400 1.357 10.200 11.000 0.120 0.110
73/12/03 14 30 10.000 4.900 0.220 P.400 13.eOO 0.150 0.100
73/12/31 15 05 2.800 14.000 0.100 5.700 7.600 0.140 0.145
74/02/04 0.600 8.600 0.460 4.100 .100 0.200 0.150
74/03/04 15 00 t).I?0 28.000 11.000 18.800 18.900 0.178 0.182
74/04/02 14 45 0.240 14.000 2.100 6.300 .100 0.225 0.160
74/05/01 14 00 4.600 7.500 1.150 9.750 11. 00 0.134 0.138
7 /06/05 14 30 0,960 19,000 5.000 7.900 9.600 0.145 0.128
74/07/07 13 45 0.640 25.000 10.800 8.300 10.000 0.129 0.132
74/09/06 15 30 2.760 12.000 2.800 5.700 7.400 0.160 0.152
74/09/03 2.700 0.140 1.100 1.300 0.227 0.146
-------�
rc ,r TR1E AL SATE 7b/ /fA
-.7?OA 1
3e 1’. 0.C S 57 20.0 4
CJ1A .A ) —Iv
S411— . T
lf)Li) -‘1C’ u Y -Eb :,?0- 1
t) d’ O3 lr CONNCT 2’. 25
I1 r ALc d l l ldC-.
0300 F 1 0Er Tr CL. SS 00
‘)063u 0062 u0610 00671 u0665
DATE Ti i€: DEPT— NO2 NO3 TOT KJEL i ij—r PhOS—315 P-lOS—TOT
F OM OF ‘ TOTAL N TOTAL OPTHU
10 DAY FEET MG/L ‘ -IG/L P40/L MC’/L ? t t,/L P
73/0”/15 14 15 0.290 0. 45 0.04 3.006 0.020
73/0 /12 14 30 .i.31 5 0.300 0.017 v.016 0.060
73/06/0 - 12 35 0.252 2.100 0.050 0.013 0.030
73/07/01 1’. 50 0.390 0.3 0 0.039 0. Os O 0.110
73/07/25 12 45 0.37 0.1 0 0.011 0.026 O,V4
73/09/02 16 30 O.?9 ’ 0.600 0.052 0.005K 0.050
73/10/06 13 0 0.198 1.b O O 0.260 0.010 0.113
73/11/04 11 45 0.240 ).0 30 0.115 0.00 0.040
73/ 12/ I ’. 11 07 0.240 0.300 0.016 0. 12 0.030
74/01/09 10 30 0.352 0.300 0.012 0.032 0.14.)
74/02/03 13 00 0.390 0.8 1 10 fl.125 0.030 0,1’.5
7’./02/17 12 00 v.780 0.303 o.O15 0.010 0.070
74/03/04 13 30 0.352 0.200 v.015 0.010 0.060
74/03/2- 13 00 v.3e 4 0.200 (j.04 0.005 0.040
K VALUE KNOWN TO
LESS TH INUICATEO
-------�
ST. ET ET.TEVAL DATE 7e /0’ ’fl’
4 72j 2
36 17 50.0 DSb 3 22.0 4
C )Mc LAN )
‘ .7 7.s D L L)Lt.IT I1L
O/OL MICKO Y E3 052091
t u cELO OL ) riICPcO . DAM NtAR UC’cLAND
11E. LES 21112o’.
0O0 F E1 DEPTh CLASS 00
00630 00525 0’ 10 0 671 00b6
DATE TIME DEPTrI N02e.N03 TOT KJEL Nr13—N r1OSDjS r’-iO -TOT
FROM O N—TOTAL N TOTAL OPTIIO
TO UAY FEET MO/L MG/L MG/L MG/L ‘ MG/L
73/04/15 09 55 0.315 0.190 0.OOStc 0.019 0.06C
73/05/12 09 35 0.350 0.310 3.015 3.032 0.097
73/06/09 08 40 0.520 1.890 0.081 0.028 0.0 15
73/07/01 14 55 0.357 1.680 0.168 0.028 0.080
73/07/2 08 50 0.290 0.620 0.005K 0.018 0.065
73/09/0 13 05 0.300 0.540 0.0’ .8 0.027 0.075
73/10/06 0 50 (.1’.7 1.350 C.168 0.030 0.105
73/11/04 08 35 0.189 1.650 0.220 0.032
73/12/15 )9 15 0.440 0.900 0.080 0.032 0.070
74/01/09 15 00 0.420 0.200 0.012 0.040 0.103
7 /02/03 09 15 3.400 0.150 0.020 0.020 0.145
74/02/17 08 35 0.440 0.300 0.015 0.01 5 0.075
74/03/04 10 50 0.400 0.375 0.020 0.020 0.u7
74/03/25 09 15 3.384 0.300 0.005 0.030 0.095
,c VALUE KNOWN TO E
LESS THAN INOIC -TEU
-------�
ST3 ET ETP1EVAL UATF 7 ’0 ,C
‘72Do l
Jo 1.. 54.0 0. 6 30 22.0 4
CE)A ’ CREEK E,T \)
47 7.5 ,tT M1TA’E
T/OLI) 1ICKQRy r ES 0 091
T j I1*T 20/US i Y 70 b .cl)C’ 3 MI E GREEN - I
1l .’ ALES 21112o’.
0000 FEET OE Tri CLASS 00
U0630 0052 00610 00671 00665
OATE TII E DEPT-i N02 .NO3 101 kJEL Nrij—N PriOS—OIS PriOS-TOT
FPOM OF N—TOTAL N TOTAL OPTr4O
TO DA FEET MG/L MG/L Mj/L 4G/L P MG/L P
73/04/15 10 40 0.010’c 0.180 0.011 0.027 0.040
73/05/12 10 30 0.096 0.270 0.021 0.066 0.110
73/06/09 09 30 0.190 1.760 0.042 0.100 0.135
73/07/01 09 35 0.083 1.050 0.056 0.110 0.155
73/07/28 09 45 0.410 0.620 0.021 C.180 0.260
73/09/0? 13 ‘.0 G.0i0c 0.o05 .012 0.065 0.100
73/10/06 10 15 0.010K 1.400 0.147 0.07 0.145
73/11/04 09 15 0.033 1.750 0.180 0.138 0.195
73/12/14 13 22 0.312 0.100 0.016 0.080 0.095
74/vL/0 13 25 0.330 0.600 0.024 0.163 0. ’ .00
74/02/0) 09 30 0.410 0.703 u.120 0.085 0.200
74/02/17 09 20 0.10’. 0.200 .005 0.040 0.065
74/03/04 11 20 0.032 0.400 0.015 0.055 0.075
74/03/25 10 00 0.208 0.100 0.030 0.065 0.080
K V \LUE KNOWN ro bE
LESS TrIAN 1NDIC TED
-------�
Tj ET ET IUVLL DATE 7b/09/(,9
47201
3b 15 55.0 0 6 2 3.0 4
p ’lCF0 C- E <
- .7 7.5 LA tiAP,J
T/CLU IC’ Or Y ES 0520’1
p L) DG 2.3 MJ S OF LAGUA OU
1Lr ALcS 21112 0’.
000C FEET DEPT-4 CLASS 00
00630 00625 O 610 00671 0’)665
DATE TIME DEPTri NO2 t’1O3 TOT KJEL Ni13—N Pr QSDjS PhOS—TJT
FROM OF N—TOTAL N TOTAL O T 1()
13 DAY FEET MG/L MG/I MC’/L MG/I P P4G/L
73/04/15 11 OC 0.010K 0.220 0.023 u.022 3• j35
73/0 /12 10 45 0.105 1.150 0.031 0.054 0.085
73/06/09 09 50 0.240 1.100 0.0)4 Cs.076 0.100
73/07/01 09 55 0.072 0.810 0.033 0.060
73/07/2’s 10 00 0.084 0.540 0.005K 0.126 0.183
73/09/02 13 c 0.010r l.c00 0.033 0.210 0.3’3
73/1Ci/0’ 11 06 0.010K 2.603 O.3 O u.113 0.345
73/11/0’. 09 30 0.010K 2.200 0.500 0.120 0.145
73/12/1’ 13 09 0.3 4 0.200 0.012 0.064 0.075
7 /oI/O9 13 15 0.420 0.400 0.012 0.152 0.0
74/02/03 09 45 0.450 0.300 0.025 0.095 0.180
74/02/17 0 35 0.070 0.100 0.005K 0.035 0.045
74/03/04 11 35 0.012 0.300 0.015 0.035 0.055
74/03/25 10 15 0.163 0.200 0.015 0.045 0.060
K VALUE IcNUWN TO 8E
LESS THAN INDICATED
-------�
TD. ET - ET IEVAL JAT 76/tj9/j9
‘.720J1
36 16 17.0 3d 20 59.0
,A TO
e7 ?.5 Mu’lT . r OLi
T/jLD rICKO Y P ES 0520’1
sEC c0 6300 8P OG . w OF OAcLANO
i1 E ALc.S 2111204
0000 FEET DEPTrt CLASS 00
00630 00625 00610 00671 00665
DATE TP 4 E DE?T NO2 O3 TOT rcJEL Nr-13—N PrIOS—DIS PrIOS—TOT
F 0M OF ri—TOTAL N TOTAL ORTIIO
To DAY FEET MG/L MG/L MG/L MG/L P M0/L P
73/Ci4/t 11 10 0.120 0.630 0.042 0.260 0.3 -sO
73/05/12 11 15 0.390 1.320 0.147 3.294 0.400
73/06/0’I 10 05 0.400 2.310 0.088 0.252 0.313
73/07/01 io 15 0.460 4.200 0.800 2.600 2.600
73/07/28 10 15 0.810 0.900 0.100 0.430 0.S 0
73/09/02 14 10 0.390 4.Fi OO 3.200 6.300 6.S00
73/10/06 11 12 0.270 7.?00 ..100 5.4 6 7.200
73/11/04 09 40 0.810 5.600 2.100 1.500 1.6 3
73/12/14 12 56 0.800 1.800 0.510 1.200 1.300
74/01/09 13 00 0.36w 1.000 0.028 0.176 0.560
74/02/03 10 35 0.570 1.000 0.080 0.110 0.240
74/02/17 0 50 0.520 0.650 0.065 0.525 0.737
74/03/04 11 45 0.910 0.700 0.150 0.540 0.680
74/03/25 10 30 0.490 0.400 0.100 0.220 0.270
-------�
Tj”ET _LT.UEVLL DATE 7 ”v4/ 9
‘.720 11
.36 lb 50.0 036 lb 30.0 4
S? 1 C E ’
7.5 riu’.TER RUIN
T / )LJ riICt O Y .s os2o;I
US r W 231 1.4 ML SS UF MUNTE S r
11E ’ALES 211120’.
0000 F T OEp- 1r1 CLASS 00
00630 00625 0’ôl O 00671 Ou6bS
o rE TIt E 0 PT’i t 0?4NO3 TOT cJEL Nh3-N PrIOS—DIS PP1O$—TJT
FROM o ‘4—rUTAL N TOTAL ORTI-tO
TO DAY FEET /L MG/L MG/I MG/L P MC-/L -
73/34/15 11 15 0.013 0.370 0.015 0.327 0.045
73/O/ 2 11 45 0.200 O.7 0 0.036 0.074 0.120
73/06/0 10 30 0.150 2.4( 0 C.06 0.06* 0.110
73/07/01 10 35 0.110 0.350 0.O2 0.110 0.140
73101/?d 10 30 0.620 O.& bO 0.020 0.?30 0.31b
73/09/0? 14 35 0.022 0.720 0.04b 0.140 0.177
73/10/06 11 35 0.010 1.200 0.138 0.176 0.270
73/11/04 10 00 0.015 1.700 0.232 0.140 0.145
73/12/14 12 34 0.270 0.100 0.020 0.060
74/01/OS 11 30 0.232 1.600 0.024 0.300 1. ’ . Oo
74/02/03 IC 30 0.470 1.300 0.175 0.150 0. .40
74/02/17 10 00 0.152 0.100 0.015 0.065
74/03/04 12 00 0.120 0.400 0.040 0.075
74/03/25 11 no 0.270 0.100 0.025 0.050 0.060
K VALUE r(NOWN TO 8E
LESS TMAN P 0ICATED
-------�
,T3P T ET :Ev L JATE 7h/C,’ /)Y
‘.720F I
36 I 06.0 )e6 13 13.U ‘.
C )A- C EL ( ( a TEc
‘ .7 1.5 ELL OOLJ
t/OLC.. i1CP c Y 0 2091
s c r D R ) ’ . T EE CEUA. CR CO’lwA ’ ,C
fl.1120’ .
0000 FEET DE Tri CLASS U0
00630 00625 00610 0r 871 00665
DATE TIUE DEPTrt NO? iO3 TOT KJEL l.i3 PhQ5 )jS PI iOST0T
FRO i OF i—TOTAL N TOTAL ORT iO
TU DAY FEET MG/L MG/L MG/L MG/L P MG/L P
73/04/15 13 00 3.03! 0.2 0 0.046 0.320 0.i35
73/05/12 12 ‘.5 0.3b0 1.760 0.036 o.ose 0.090
73/Ob/0 ii 30 0.294 2.203 0.525 0.065 0.103
73/07/01 12 50 0.440 0.820 0.040 0.220 0.390
73/07/2d 10 S 0.603 0.500 0.011 0.154 0.235
73/09/0? 15 I c C.132 0.910 0.026 0.160 0.20u
73/10/06 12 05 0.012 1.550 0.198 0.124 0.195
73/11/04 10 20 0.076 2,300 0.300 0.022
73/12/14 11 50 3.460 0.700 0.032 0.064
lA/O1/0 11 15 0.310 0.700 0.016 0.20 u.S03
76/02/03 10 45 0.523 0.500 0.045 0.090 0.175
74/02/17 10 30 0.312 0.100 0.030 0.055 0.060
74/03/04 12 20 0.192 0.900 0.330 0.045 0.060
74/03/25 11 30 0.368 0.300 0.080 0.060 0.10
-------�
ST ET ETRIEvAL JATE 7 /09/,”
‘.720W 1
36 15 ‘.5.0 0 6 0’ 05.0 ‘.
-COUNt) LICK CPtc
‘.7 7.5 DLXO’ . I G
T/DLu rijCKur ‘ .ES O32O’ t1
IN -iWY 2—/US r-i Y 7uN 8P DG Ar 0ME
11E LES 211120’.
oeo FEET oEPrr ’ CLASS 0
00630 006?5 00610 00671 00665
DATE TII E OEPT-I NO2 .NO3 TOT KJEL NH3-N PPIOS—OZS PHOS—TUT
RO OF ri-TOTAL N T .JTAL 0PTr O
TO WAY FEET MG/L ‘4G/L MG/L MG/L F MG/L .)
73/04/16 13 25 0.031 0.240 0.011 0.048 0.015
73/05/12 14 10 0.252 0.765 0.029 0.087 0.135
73/06/09 12 05 0.168 2.400 0.105 0.100 0. lsO
73/07/01 13 30 0. ’ .4 0 0.80 0.028 0.260 0.460
73/07/28 12 20 0.410 0.840 3.005K 0.300 0.400
73/09/02 16 10 .0d4 0.520 0.018 0.015 0.060
73/10/06 12 ‘.0 0.160 1.250 C.078 0.021 0.090
73/11/04 11 30 0.252 0.800 0.120 0.026 0.045
73/12/14 11 18 0.300 0.600 0.120 0.022 0.050
74/01/09 10 ‘.5 0.276 1.850 0.016 0.290
74/02/03 12 00 0.352 7.200 1.050 0.180 0.550
74/02/17 11 00 0.410 0.200 0.025 0.065 0.120
74/03/04 13 00 0.22’. 0.200 0.035 0.055 0.110
74/03/25 12 30 0.380 0,200 0.025 0.073 0.090
K VALUE ISNOWN TO 8€.
LESS T 1AN INDIC rE()
-------�
ST3 ET ET UFVAL OATE 7 /0 /Q’
3€ ló 25.J 036 00 30.0 4
PtYT ’ C-EE
‘ 1T s CO 1 P 4 A
T/L,LO r,1CK )PY iES 4J52041
iN -i 2 .5 MI S OF IDULETJN
11t. ALt5 21 112 ’
0000 FEET D TPTr CLASS 00
00 30 00625 03610 00671 00663
OATE TIME OE T i NO NO3 TOT JEL Nr,3-N PbOSDIS HO5TOT
FPOM OF N—TOTAL N 1(HAL O Tr1O
TO DAY FEET M /L M6/L MG/L MG/L MG/L P
73/04/15 14 30 0.460 0.190 0.013 3.113 0.145
73/05/12 15 25 0.830 0.290 0.032 0.138 O.17
73/06/09 12 55 0.840 1.100 0.056 0.180 0.315
73/07/01 14 10 1.140 0.920 0.027 0.345 0.800
73/07/2 13 00 0.980 0.490 0.008 0.U40 0. S0
73/09/02 16 55 0.690 ).150 0.323 0.200 0.413
73/10/06 13 15 0.220 1.300 0.132 0.168 0.370
73/11/04 12 00 0.520 1.650 0.300 0.168 0.2 O
73/12/14 10 42 1.200 0.100 0.024 0.176 0.220
74/01/0 10 15 0.616 0.800 0.016 0.336 0.800
74/02/03 13 30 0.740 2.100 0.320 0.210 0,460
74/02/17 12 30 0.780 0.400 0.020 0.130 0.210
74/03/0’. 14 30 0.720 0.400 0.100 0.133 0.190
74/03/25 13 30 1.090 0.200 0.030 0.135 0.155
-------�
TOPET ET tEVAL DATE 76,og /o
‘+ 720J1
36 22
L-OO [
26.0 08E Od 15.0 4
‘ .7 i- .hiSOALr. LO T
T/JLL) i-ICrcO’ Y ES
StC kU BMDG .5 M
1 IEPALES
0000 FEET DE ’T’i
052O ’1
S OF E UP -1APTSVILL
211 120.
CLASS 00
00630
00625
0C6 10
00671
00665
DATE
TIME
DEPTH
NO2&N03
TOT KJEL
Nri3—N
PhOS—t)I5
?HOS-TOT
F 0M
OF
N-TOTAL
N
TOTAL
OPTHO
TO
uAY
FEET
HG/L
‘lG/L
MG/L
MG/L P
Mt -i/L P
73/34/15
14 45
0. ’ .20
0.272
0.010
3.105
0.1’+0
73/05/12
15 45
0.760
0.660
0.025
0.132
0.185
73/06/09
13 15
0.860
0.880
0.022
0.170
0.213
73/07/01
14 30
0.610
0.340
0.023
0.189
0.240
73/07/24
13 20
1.320
0.120
0.007
0.220
Q. 7O
73/09/0?
14 20
0.010K
0.840
0.147
C .094
0.175
73/10/06
13 30
0.04?
1.400
0.078
0.089
0.230
73/11/04
12
15
0.140
1.350
0.170
0.154
0.265
73/12/14
10 26
1.300
0.100
0.016
0.176
0.210
74/01/09
09 65
0.5 0
0.800
0.020
0.352
0. O0
74/02/03
14 00
0.990
1.800
0.150
0.155
0.275
74/02/17
12 20
0.960
0.300
0.030
0.135
0.175
74/03/04
14 45
0.850
0.200
0.030
0.150
0.210
74/03/25
14 00
1.060
0.200
0.017
0.145
0.175
VALUE KNOWN TO 8E
LESS THAN INDICATED
-------�
ST3PET QET 1EVAL DATE 7r-/O /f)9
.720’c
36 23 30.0 066 10 00.0
LITTLr GOu5E C EEc
47 TR3uS3. LE Co 1.
T/)LU r11C’cO Y 0620- 1
M j ’ ST ø uG IN MA (TSVILLE
11E -’ALtS 211120g.
0000 FEIJ DrPT’-i CLASS 00
00630 00625 0C610 00671 0C665
OATE TIME DEPT-i NO &NQ3 TOT KJEL Nr13—N Pp105—DIS PrIOS-TOT
F 9P OF NTQTAL N TOTAL U Trv)
TJ GAY FEET P lG/L ‘1G/L MG/L MG/L P MG/L
73/04/15 15 17 0.0’.4 0.360 0.006 (‘.100 0.12 5
73/05/12 16 05 0.340 0.700 0.010 0.150 0.10
73/06/09 13 25 0.6 80 1.200 0.042 0.189 0.240
73/07/02 08 30 0.110 0.480 0.021 0.180 0.240
73/07/23 13 30 1.160 0.190 0.012 0.26) 0.320
73/Q9/0 17 30 0.066 0.750 0.050 0.176 0. 30
73/10/06 13 40 C.700 1.300 0.336 0.440 0.550
73/11/04 12 25 0.052 1.100 0.180 0.230 0.300
73/12/14 10 17 0.970 0.300 0.032 0.176 0.230
74/01/09 09 10 0.860 0.600 0.016 0.360 0.873
74/02/03 14 00 1.060 1.500 0.140 0.17S 0.230
74/02/17 13 00 u.500 0.500 0.020 0.120 0.240
74/03/04 15 00 1.680 0.450 0.055 0.128 0.166
74/03/25 14 30 0.910 0.200 0.035 0.170 0. ld O
-------�
STORET ET IEV L O T 7 ’o9.’o’
.720L1
36 23 55.0 0 20 35.0
LED C’ E c
47 C J T MA’
T/ULO -‘ICK0 Y ES GS20” 1
ic ELO C AGF0NT -.OUSE
11t ALES 1112L,—
OC,00 FEET 0 DT CLA S G )
00630 00625 03610 00671 0066 5
DATE TIME DE T-4 N02 NO3 TOT KJEL Nh3—N PliOS—OIS r 0S—TJT
FROM OF s-TOTAL N T’JT L OPTHO
to L)AV FEET P4G/L MG/L MG/L MG/L P MG/L
73/04/IS 16 )O 0.060 0.210 0.005K 0.048 0.070
73/05/12 16 30 0.220 0.?30 0.033 u.074 0.110
73/06/09 13 0 0.147 1.470 0.190 0. )9b
73/07/02 09 00 0.054 0.540 0.014 0.099 0.165
73/07/28 13 CO 0.066 1.260 0.009 0.190 0.375
73/09/02 17 55 0.010K 0.058 0.08 2 u.190
73/10/06 14 00 0.012 1.250 0.069 0.092 0.250
73/11/04 13 00 0.168 1.700 0.138 0.120 0.17
73/ 12/ I’ 09 45 0.830 1.600 0.352 0.128 0.160
74/01/09 09 00 0.520 0.800 0.020 0.300 u.873
74/02/03 14 30 0.792 1.000 0.115 0.100 0.210
74/02/17 14 00 0.430 0.800 0.035 0.080 0.130
74/03/04 16 00 0.420 1.300 0.360 0.075 0.120
74/03/25 15 00 0.640 0.200 0.030 0.O’ 5 0.100
K VALuE KN0W 4 TO 8E
LESS T,-i M 1NDIC4 1EO
-------�
ST3 ET ETQ1EJAL L)ATL Th/0 /09
4 7 2DM 1
36 21 4’...) 086 ?d 02.0 4
TO.qN CE c
47 7. L .U UO
1/OLD riICK3 Y ES 0 2091
S C 1) 5203 B . O UP TMEAM OF CON CAMP
u1 ALES 21112i. .4
0000 FEET )tPTN CLASS 00
00630 00625 00610 00671 0066i
DATE TIME DE T-4 NO2 .NO3 TOT KJEL H3N PH0S JIS ri0STOT
Fr OM or .—TOTAL TOTAL O T,I0
TO AY FEET PIG/L MG/L MG/L MG/L i HG/L rI
73/04/15 08 50 0.460 0.300 0.005K ( .168 0.220
73/05/12 •)8 25 0.770 0.300 0.019 0.231 0.300
73/06/09 07 50 0.800 1.800 0.096 0.210 0.260
73/07/01 08 10 0.200 1.760 ‘).098 0.126 0.353
73/07/28 08 15 0.105 1.200 0.005’s 0.147 0.390
73/09/02 12 00 0.010” 2.800 0.020 0.138
73/10/Ob 08 55 3.168 2.100 0.198 0.091 0.375
73/11/04 08 00 0.910 2.200 0.250 v.1 20 0.130
73/12/IS 08 10 1.400 1.300 0.152 0.200 0.260
74f01/O’ 11 00 1.180 2.200 0.384 0.500 0.960
74102/03 08 30 1.230 1.100 0.240 0.210 0.330
74/02/17 07 30 0.810 O.’.00 0.015 0.1 3 0.285
74/03/04 10 00 0.528 0.400 0.040 0.180 0. D
7 ’ ./03/25 08 00 1.l?0 0.200 0.010 0.210 0.220
K VALUE KNOWN TO BE
LESS ThAN INDICATEL )
-------�
ST3RtT ETDIEvA1 3AT 7 /09/o
4720 ‘ 1
36 22 10.0 & t 2 0’o.0 .
E CAP’ C EE-
‘ .7 7. LA3U’ j )
T/ L r(1Ct Up Y ES JS20 I
uS 31E b’. OG 5 ii S w UF iwY O9 JCT
I IEPAtIS 11120..
0000 FEET DEPTI- ’ CLASS 00
00630 30625 00610 0C671 00665
DATE TIME EPT ’ O2 NO3 TOT KJEL N 13—N PriOSi)IS PHOSTOT
FPOM OF N—TOTAL N TOTAL 0 TriO
TO DAY FEET HG/L lG/L /L HG/L P MGIL P
73/04/15 09 05 0.240 0.2 0 0.029 0.130 0.170
73/05/12 09 45 0.540 0.300 0.040 0.190 0.250
73/06/09 08 10 0.990 5.400 0.2 ’ 0 0.240 0.20
73/07101 08 IS u. 120 1.890 0.026 0.1S O 0.340
73101/28 08 ‘S 0.115 1.100 0.015 0.168 G.Jlt
73/09/02 12 ?0 0.017 1.500 0.00 0.084 0.333
73/10/05 09 05 0.024 1.450 0.086 3.385
73/11/04 08 10 0.770 3.750 0.440 0.330 0.470
73/12/IS 08 ‘+5 1.3u0 1.700 0.240 0.264 0.300
74/01/04 14 20 1.010 0.700 0.052 0.280 0.460
74/02/03 08 ‘.0 1.010 1.100 0.195 0.210 0.370
74/02/17 14 50 0.810 0.300 0.015 0.170 0.220
74/03/0’. 10 10 0.650 0.500 0.035 0.185 0.270
74/03/25 08 30 1.100 0.200 C.025 0.185 0.200
-------�
STORET ET 1EVAL DATE 7’ /09/O9
4720 1
36 2 ) ‘.6.0 086 31 30.0 ‘.
STATIO CAA? C EE(
‘.7 7. , — NUE. UNvIL
T/JLL) MLC’ J Y ES 052O l
- O b2b ’ uô 3.5 Mj SE OF UCANA
11C ” .LE 211123-.
OuOO FE.ET T’i CLASS 00
00630 00625 0 mb 0fl671 00665
DATE TIME OEPTri N02&N03 TOT KJEL NH3—N PHOS—DIS HOS-TJT
FROM OF ! 1—TOTAL N TOTAL OPTrIO
TO DAY FEET MCI/L MG/L MG/L MG/L P MG/L
73/0’ ./15 09 ?0 0.115 0.600 0.00 0.060 0.105
73/05/1? 09 00 0.290 0.2 Q o.03o 0.092 u.17 0
73/06/09 09 17 0.440 v.360 0.132 0.29C
73/07/01 08 20 0.200 1.540 3.130 0.099 0.261j
73/07/28 08 30 0.176 0.880 .009 0.180 0.360
73/0 /0? 12 40 o.oioic 1.300 j.024 0.061 0.195
73/t0/0 09 10 o.oio c 1.750 0.096 0.058 0.270
73/11/04 08 15 0.048 1,550 0.160 0.0’+2 0.145
73/12/15 09 00 0.980 0.750 0.120 0.132 0.158
74/0I/0 14 30 0.650 0.500 0.027 0.136 0. 60
74/02/03 08 45 0.690 1.300 0.200 0.100 0.210
74/02/L7 08 IS 0.352 0.200 3.010 0.085 0.12 .
74/03/04 10 15 3.264 0.700 0.050 3.085 0.14s
74/03/25 08 45 3.510 0.200 0.015 0 .090 0.105
K VALUE r(NOWN ru BE
LESS THAN INOICATEU
-------�
TO ET ET 1EV4L D T
‘ .720 I
36 Àô 17.0 ( 6 36 4 .u 4
O . r EC C- Er
‘.7 7.5 E\UE’ 0 IL
T/JLu 91CKO Y RE 0520 1
IjS ri Y 31r: L)G JUST OF NuEI S0 .dILLE
11t AL .S 211120..
0000 FEET DE .Tri CLASS 00
GQ63 O 00625 0 3610 00671 00665
DATE TIME DEPT-i N0 ”403 TOT KJEL Nri3—N iOS-D1S - OS—T0T
rPOM OF ‘ .-TUTAL TOTAL OPTrtO
I C . DAr FEET M(.,,’L MG/L H3/L P MG/L .‘
73/04/15 04 35 U.19 0.330 0.022 0.050 u.110
73/05/1 09 15 0.340 0.630 0.084 0.012 0.200
73/06/0 08 8 0.15’. 3.140 0. 510 0.067 0.130
73/07/01 08 35 0.092 2.500 0.036 0.105 0.400
73/07/28 08 ‘.0 C. 168 1.100 0.005K 0.138 0.355
73/04/0 . 12 ‘.5 0.010 ’. 1.470 0.050 0.092 0. l0
73/10/Ob 09 20 0.010 ’s 1.800 0.061 0.069 0.360
73/11/0’. 08 ?0 0.336 2.600 0,39Q 0.126 0,350
73/12/ IS 09 00 0.970 0.900 0.092 0.096 0.145
74/01/09 11 45 0.700 0.300 0.048 u.124 0.220
7’./02/03 09 00 0.760 0.603 0.075 0.145 0.410
74/0 . /17 08 20 C.430 0.100 0.020 0.065 0.075
74/03/04 10 40 0.390 0.400 0.055 0.080 0.220
74/03/25 09 O( 0.660 0.200 0.020 0.065 0.12’.
K VALUE KNOWN TO BE
LESS THAN INDICATED
-------�
STORET RETRIEVAL DATE 7b/09/09
47201cA TF4720 < P001500
36 23 25.0 096 09 47.0 4
hA r ‘ILLE
47 TI- OUSDALE Co MAP
1/OLD ‘ ICPcORY LAI E 052091
LITTLE GOOSE C E Pc
11c.PALES ‘.1204
0000 FEET DEPT -i CLASS 00
DATE
FROM
TO
TIME DE T-4
Ow
DAY FEET
00630
NO 2 NO)
N-TOTAL
MG IL
00625
TOT KJEL
N
MG/ L
00610
N 1 - 4 3—N
TOTAL
MC,/L
0.8ô2
1.580 14.700
00671
Ph OS— D 15
ORT 410
t4G/L P
6.760
00665 50051
PNOS—TOT FLOW
RATE
P -IG/L P INST MGD
0.085 24.000 12.400 14.350 17.000
50053
CONDUIT
FLO -MGU
MONTHLY
9.600
73/0 5/30
12
...5
73/06/27
10
IS
CP (1) -
73/06/28
10
iS
73/07/31
15
35
2.300
11.500
6.900
16.000
0.100
0.100
73/08/30
1’,
30
5.100
19.600
1C.900
16.350
17.500
0.100
0.100
73/10/04
15
30
5.000
24.500
11.600
17.450
19.970
0.100
0.100
73/10/30
08
30
4.100
24.000
12.600
16.000
19.500
0.120
0.130
73/11/29
10
30
3.300
5.900
0.088
3.500
5.000
0.150
0.120
74/01/03
08
07
2.800
16.000
5.800
11.600
.13.000
0.150
0.130
74/01/30
08
00
0.360
12.000
3.950
2.520
3.500
0.130
0.150
7’./02/27
08
00
1.400
18.000
7.100
11.000
11.000
0.140
0.140
74/03/28
08
01
1.040
25.580
5.750
11.000
14.800
0.150
0.135
74/04/30
08
00
0.440
27.000
11.500
13.000
17.000
0.130
0.140
0.122 0.12 5
0.100 0. luO
-------�
ST)RET , ET IEVAL DATE 76/09/0
‘.7200A AS47200A 0O210O
36 18 00.0 086 36 0.0 4
riE’JDE SONd ILLE
47 7.5 iENDE’ 5QNvIL
1/Oh) iICKO Y LAI E 052091
D AKES C EEic
11E uL S 214120k
0000 FEET OEPTI-t CLASS 00
00630 00625 00610 00671 00655 50051 50053
DATE TIME DE T i NO2 NO3 TOT KJEL N’13-N PI-IOS-DIS PHOS-TOT FLOW CONDUIT
FROM O N-TOTAL N TOTAL ORTHO RATE FLO-MGO
TO DAY FEET MG/L lG/L MG/I MG/L P P4G/L P INST MGD MONTHLY
73/08/16 15 30 3.900 2.100 0.480 6.500 6.500 0.655 0.500
73/09/27 lb 00 1.700 5.900 0.245 13.000 17.000 0.650 0.700
73/11/19 13 00 5.400 3.300 0.065 10.400 10.500 1.400 0.600
73/12/12 14 00 3.900 5.900 0.110 7.800 8.800 0.686 0.650
74/01/22 14 00 4.100 6.650 0.054 5.600 6.700 1.600 0.600
74/03/15 )8 00 0.040 7.500 0.050K 0.120 6.500 0.980 0.600
74/04/29 10 00 0. 40 7.900 0.130 6.400 7.700 0.644 0.800
74/06/07 14 00 1.840 3.800 0.050K 4.200 4.700 0.650 0.600
76/07/05 11 00 0.520 7.000 0.600 7.100 8.100 0.500 0.600
74/09/16 15 30 1.680 5.200 0.033 4.400 5.400 1.070 0.600
74/10/30 13 00 1.360 11.000 0.630 5.670 6.800 0.800 0.600
74/11/20 09 00 6.685 1.500 0.057 7.245 7.675 1.200 0.800
K VALUE KNO*N To bE
LESS THAN INDICATED
-------�
,TOPLT -4EIPIEVAL O. TE 75/oc / c
‘.723A 1
35 56 30.0 086 22 42.0 4
E FK C ONES IvEP
‘.7 7.5 WALTER 1jLL
T/r C PRIEST RES 052091
TN ri*Y 10/US 4WY 231 bI OG .5 S WALTENPIIL
lIt?ALES 211120’.
0000 FEET DEP1 CLASS DC
00630 00625 00610 00671 00665
OATE TIVE DEPT-I NO2 N03 TOT ‘(JEL NPi3-N PHOS—DIS PHOS—TOT
FPO ’ OF N—TOTAL N TOTAL UPT-lO
TU L)AY FEET ri&/L HG/L M(/L MC-/L P “lOlL P
73/04/13 13 55 o.3a 0 0.100K 0.007 0.036
73/05/14 11 IS 0.530 0.?Q0 0.019 0.05 ’ . 0.090
73/36/1’ 10 15 0.520 0.350 0.021 0.060 0.110
73/07/I ’ 09 50 0.660 0.720 0.160 0.140 0.230
73/08/14 09 40 ..34 0 0.440 .052 0.115 0.160
73/09/13 10 70 J.U5C 0.440 0.048 0.096 0.1 ’ .S
73/IC/IS 09 45 0.680 1.450 0.240 0.250 0.345
73/11/14 10 15 0.470 3.200 0.840 0.016 0.040
73/12/18 10 ?0 0.810 1.300 0.224 0.076 0.280
74/01/1’ 10 30 0.880 0.100 0.OO5Pc 0.052 0.080
74/02/01 09 15 0.7 2 0.200 0.010 0.055 0.065
7 /02/15 09 30 (.570 0.100 .).C25 0.125 0.340
74/03/01 09 30 0.6 )0 0.300 0.015 .041 0.06’.
c VALUE P(NOWN 10 t3L
LESS THAN INOICuTED
-------�
T LT ETPIEVAL DATE 7 /0 / 9
‘.72ib1
i5 Sb 6.C 086 27 56.0 4
F
47 7.5 I,ALTE- -‘ILL
t/ r?CY PPIEST PES 052091
SULPrEP SP- S , 0 B L)G 2 M I OF LEAr’4NA
LIE AL€i 211120-.
0300 FEET OEPTN CLASS 00
00630 00625 00610 00671 00665
DATE TI’ E DEPT - i N02 .NO3 TOT KJEL Np13-N P -iOS—DIS PHOs—TJT
rPo l OF ‘4-TOTAL N TOTAL ORTHO
TO AY FEET MG/L lG/L MG/L MG/L P MG/L ?
73/04/13 13 35 0.630 0.250 0.031 0.110 0.131
73/0S/1 . 10 45 0.930 0.230 0.010 0.120 0.165
73/06/14 09 45 0.850 0.560 0.046 0.168 0.230
73/07/1 ’. 09 20 1.180 0.630 0.210 0.320 0.380
73/08/1 ’. 09 05 1.180 0.660 J. 079 &a.280 0.330
73/09/Li 09 59 1.220 0. ?0 .3.033 1.400 1.600
73/10/15 09 30 1.220 1.150 0.210 1.260 1.650
73/11/1’. 10 00 1.040 2.800 0.710 0.504 0.570
73/12/18 10 05 1.260 1.100 0.300 3.225 0.2 0
74/01/14 10 10 1.010 0.200 3.008 0.048 0.090
74/02/01 09 00 0.990 0.?0U 0.015 C.09S 0.120
7 /02/1 09 10 0.660 0.600 0.020 0.125 0.270
74/03/01 39 15 0.990 0.400 0.045 0.155 0.230
-------�
T) ET ET IEVAL DATE 7 /09/0’
‘ .723C1
36 31 00.0 08e 24 01.0 :.
FALL ‘ EEK
7. GLADEVILLE
T/2Er C R1EST ES 052091
?rIILLIPS O 8r Q( 3 M N OF MONt.
11F?ML S 211120’.
0000 F .tT OE Tr’ CLASS 00
DATE
FROM
To
73/04/13
73/OS, 14
73/06/ I’ .
73/08/1’.
73/12/18
74/01/14
74/02/01
74/02/iS
74/03/01
00630
00625
NO2 NO3
TOT KJEL
NN3N
Pr,OSi)IS
—TOTAL
MG/L
MG/L
TOTAL
MulL
O TdO
MG/L P
MG/L
TI 1E OEPTr
OF
DAY FEET
14 IS
11 20
10 ‘0
10 00
10 35
10 50
0 30
09 40
O 45
0.027
0.052
0.040
0.250
0.132
0.550
v.320
0.156
0.096
0.210
0.2 0
0.790
0.870
1.500
0.100K
0.100
0.100
0.300
,.010
0.008
0.019
0.0 28
0.288
0.005K
0.005
0.010
0.025
3.017
0.024
0.024
0.056
0.045
0.025
0.015
0.0 30
0 • 045
0.06 5
0.110
0.02’,
0.0 20
0.055
0.030
0.015
K VALUE KNO N TO E
LESS ThAN INDICATED
-------�
TJ -E1 q 1. 1EVAi DATE 7t/09/0 9
‘ .723 01
i 07 ‘7.0 oao 31 12.0 ‘.
LJ S EEr
47 7.5
T/PE Cr PIEST ES 0 20 l
MT JULIET L) d OG 6 MI NW OF OLAL)EVILLE
11E ALES 211120 ’.
0000 FEET DE Tri CLASS 00
00b30 00625 0j61 0 O jb71 006b5
DATE TIME DEPT- NO2 .NO3 TOT KJEL Ur13—N P 1OS—DLS ?riOS—TOT
F’ Oh’ o 1-TOTAL TOTAL OPTfr-40
TO DAY FEET MG/L ‘iG/L HG/L MG/L P MC’/L
73/04/13 15 15 0.027 0.170 0.006 0.005K 0.015
73/05/1’ 12 ?S 0.06] O.1 0 0.005K 0.006 0.020
73/06/14 11 45 0.031 0.430 fl.016 0.010 0.025
73/07/14 10 20 0.046 0.820 0.063 0.018 0.035
73/08/1 ’ 10 30 3.030 0.500 0.039 0.01’ 0.050
73/12/18 II 00 ‘.?0B 1.300 3.670 0.068 0.095
7 ’ ./O1/1 ’ . 11 ?0 3.540 0.100 0 .005K 0.020 0.035
74/02/01 10 40 0.312 0.100K 0.005 0.010 0,010
74/02/15 10 20 0.156 0.100K 0.010 0.010 0.010
74/03/01 10 20 0.112 0.200 3.005 3.005K 0.015
K VftLUE KN0 N TO 8
LESS T’-iAN INDICATEO
-------�
ST ET EIw1EVAL OATE 7b/0 /0
‘.723E A
36 )9 27.0 086 37 13.0 4
STuN C EK
‘ .7
Q/. CY - iEST RtS 052091
: c ELO DAM ON I0E
11E ALE 2111204
0000 FELT DEPTM CLASS 00
00630 00625 00610 00671 00b65
DATE TIME OEPTk NO2 4O3 TOT KJEL N13N ?rlOSDIS PI-4•35T0T
FROM OF N-TOTAL TOTAL ORTMO
TO OAY FEET MG/L MG/L MG/L MG/L P MG/L P
73/04/14 15 ?5 0.’.30 0.440 0.063 0.054 0.095
73/05/14 12 35 0.294 0.380 0.039 3.022 0.060
73/06/1’. 12 iS 0.198 0.420 0.060 0.038 0.070
73/07/14 11 45 0.068 0.950 0.189 0.050 0.155
73/08/14 II 15 0.013 3.240 0.300 0.9o 0
73 /OQ/ 1 3 11 40 0.019 1.540 3.990 0.064 0.280
73/10/IS 11 00 0.016 3.300 1.500 0.380
73/11/14 11 20 0.012 0.650 C.060 0.012 0.015
73/12/18 11 30 0.270 1.300 0.192 0.068 0.095
74/01/14 11 45 0.570 0.300 0.056 0.084 0.125
74/02/01 11 00 0.540 0.300 0.030 0.075 0.115
74/02/15 10 40 0.6.,0 0.200 0.027 0.063 0.090
74/03/01 10 45 3.588 0.400 6.015 0.055 0.100
-------�
5TO . ET ETR!E.’ L ATC 7 6 /Qg/j9
.723F1
36 1 30.0 0 6 35 1 .0 ‘.
iUr IC N Cr EErs
‘ .7 7.S LAVE .O
1/ E Ci’ P-lEST P15 0S20 ’ .1
TN rI. Y 1/ JS riwY .I—70S . N LE 0”
A1tPALc 2I1120 .
0000 FEEl DEPTt- CLASS 00
&‘0b33 00o25 0 610 00671 00665
DATE TIMF DEPT t.02&N03 TOT KJEL N43 PrIOSDJS Pi-IOST01
F .Pi OF ‘i—TOTAL N TOTAL OPTrIJ
TO )AY FEET MG/L MG/L MG/L MC,/L P MG/L P
73/04/13 13 sc j.uL 0.240 0.007 o.05’. 0.0%
73/05/1’ . 13 30 0.012 0.250 0.005K 0.018 0.125
73/06/14 13 00 0.023 0.340 .0O7 0.093 3.1S O
73/07/14 08 30 0.015 0.720 0.088 0.089 0.210
73/08/14 12 nO J.06 0.560 a.019 0.058 0. 18b
73/09/13 12 ID v.017 0.J50 ).081 0.046 0.105
73/10/15 11 20 0.OlOr’ 1.150 .105 0.022 0.035
73/11/14 11 45 U.0 ’ 2 1.900 0.500 0.064 0.165
73/12/18 11 50 0.200 0.900 0.168 0.068 0.082
74/01/14 12 10 1.010 0.100 0.012 0.156 0.200
7 /02/01 11 20 0.530 0.300 0.010 0.110 0.125
74/02/15 11 05 0.300 0.100 0.010 0.095 0.1I
74/03/01 11 05 0.288 0.300 3.010 0.095 0.130
K VALUE KNOWN TO 81
LESS Tr$AN INDICATED
-------�
ST ET ET 1EVAL JATE 7b/0 9 /
.723u1
35 Se 0’..0 oeo 30 25.0 4
Stt. . T C. EE
‘ .7 7.5 5- ’ -
-------�
ST )PET ET IEVAL 3ATE 7 ’/09/’
.723 i1
35 59 11.0 086 31 16.u 4
riARTS B A’ C-i
47 7.5
T/ Er(CY IEST t.S 052091
T’i i-i*Y 1/US iw’r ‘ .1—70S B DG NE EGG SMYRN
I1EPALrS 211120’
C ’000 FEET OEPT -4 CLASS 00
00630 00625 00610 0C671 00665
DATE TIME EPT-4 NO NO3 TOT KJEL N l3—N PHOS—DIS PriO -TUT
FROM OF N-TOTAL N TOTAL ORTPIO
TO DAY FEET MG/L MG/L M /L MG/L P MG/L .- ‘
73/04/13 13 00 0.210 0. 00 0.029 0.115 0.130
73/05/1’ 10 26 0.231 O.1 0 0.009 0.138 0.170
73/06/1’. 09 20 .2S0 0.330 u.021 0.150 0.135
73/07/1’. 08 45 0.680 0.780 0.220 0.160 0.220
73/08/14 06 40 0.500 0.105 0.137 0.200
73/l2’1 09 45 0.580 0.156 0.156 0.035 0.050
74/01/14 09 50 0.850 0.100 0.008 0.152 0.195
74/02/01 08 40 0.650 0.100 0.005 0.150 0.160
7 ’ ./02/15 08 55 0.550 0.200 0.005 0.145 0.175
74/03/01 09 00 0.440 0.200 0.005 0.135 0. ldO
-------�
STJ ET RETRIEVAL C ATE 76/0/09
4723DA TF472JBA PO4 59’.
35 52 00.0 0 6 2’. 47.0 4
‘.7 7.5 MF E S O O
T/j PERCY PkIEST 0 5201
wEST FORK STONES 1VE MU FREESHO O
1IEPALES 214120’.
0000 FEET DEPT ’ CLASS 00
00630 00625 00610 00671 00665 50051 50053
DATE TIME DEPTrI NO2 NO3 TOT KJEL NH3N P’ jOSOIS Pr OSTOT FLOw CONDUIT
FROM of N—TOTAL N TOTAL OPTHO RATE FLOw-MGO
TO DAY FEET MG/L. MG/L MG/L 14C./L P MG/L P INST MOO MONTHLY
73/05/31 00 00
CPU)— 0.700 8.500 0.720 9.000 11.000 4.200 3.600
73/05/31 24 00
73/07/01 00 00
CP(T)— 7.000 9.100 2.310 7.83C 8.900 2.000 2.700
73/07/01 24 00
73/07/31 00 00
CP(T)— 2.400 2.100
73/07/31 24 00
73/08/31 00 00
2.000 17.500 17.500 1.900 2.100
73/08/31 24 00
73/10/31 00 00
CP(T)— 2.600 6.000 0.755 11.000 14.500 3.700 2.000
73/10/31 24 00
73/12/03 00 00
CP(T)— 1.400 13.000 0.300 5.900 8.700 3.300 2.500
73/12/03 24 00
74/01/06 00 00
CP(T)— 4.400 3.200 0.055 2.520 3.900 3.700 2.800
74/01/06 24 00
74/01/31 00 00
CP(T)— 6.160 3.300 0.250 7.100 9.400 3.900 4.300
74/01/31 24 00
74/02/28 00 00
CP(T)— 1.840 12.000 0.420 9.100 13.000 3.100 3.200
74/02/28 24 00
74/03/31 00 00
CP(T)— 1.160 0.089 3.900 4.400 2.500 3.100
74/03/31 24 00
74/04/ 0 00 00
CP(T)— 0.840 16.000 1.050 9.700 13.800 2.400 3.400
74/04/30 24 00
74/06/03 00 00
CP(T)— 1.360 8.100 1.050 7.500 9.000 3.500 2.800
74/06/03 24 00
-------�
STORET RETRIEVAL DATE 76/O9/
4723 A TF4723 A P046594
35 52 uO.0 086 24 47.0 4
‘ .7 7.5 MURFREESbO O
T/J PEe CY PRIEST 0520’ 1
wEST FORIS STONES RIVER i ’IURFREESdORO
lIt.PALLS 216120’.
0000 FEET DEPTI -’ CtASS 00
00630 00625 00610 00671 00665 50051 50053
DATE TIME DEPT ’ N0 NO3 TOT Kj L Nh3—N PHOS—DIS PHOS—TOT FLOw CONDUIT
FROM OF -T0TAL N TOTAL ORTM&) RATE FLOw-MGi)
TO DAY FEET MG/L MG/L MG/L MG/L P MG/L P INST MGD MONTHLY
74/06/29 24 0’)
CP(T)— 2.780 9.500 2.200 8.300 8.700 0.780 1.400
74/06/30 24 00
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TOPET RETRIEVAL OATE 76/09/09
‘ .7?3B8 AS’.723 8t3 P016982
35 49 22.0 086 2’ 58.0 4
MURSt 0’ 0 ‘ 2
47 7.5 iuWFkEESBORO
T/J PERCY PRIEST RESERVO 052091
WEST FOR’ STO 4ES RIVER
11E ALES 2141204
0000 FEET DEPTP CLASS 00
00630 00625 00610 00671 00665 50051 50053
DATE TIME DEPT-I N02 N03 TOT (JEL Nr13—N PHOS0 15 PHOS—TOT FLOW CONDUIT
FROM OF N—TOTAL N TOTAL ORTHO RATE FLOW—MGD
TO DAY FEET MG/L MG/I MG/L MG/L P MG/L INST MG0 MONTHLY
73/05/31 00 00
CPU)— 6.300 2.500 2.500 1.000 1.200
73/05/31 24 00
73/07/0 1 00 00
CPU)— 6.400 11.500 3.800 10.300 10.500 0.600 0.900
73/07/01 24 00
73/07/31 00 00
CP(T)— 1.890 22.000 7.600 11.000 12.500 0.700 0.600
73/07/31 24 00
73/08/31 00 00
CPU)— 6.800 7.550 12.000 0.627 0.642
73/08/31 24 00
73/10/31 00 00
CP(T)— 5.400 14.500 4.600 9.400 12.000 1.100 0.800
73/10/31 24 00
73/12/03 00 00
CP(T)— 7.300 5.100 0.074 4.300 5.300 1.900 1.200
73/12/03 24 00
74/01/06 00 00
CPU)— 4.500 2.200 0.040 2.160 2.700 1.800 1.400
74/01/06 24 00
74/01/31 00 00
CPU)— 7.300 0.086 2.760 3.200 1.500 1.700
7 ’ ./01/31 24 00
7 ’ ./02/?8 00 00
CP(T)— 7.500 3.300 0.160 5.250 5.450 1.400 1.400
74/02/28 24 00
74/03/31 00 00
CPU)— 6.400 4.100 0.130 4.400 5.500 1.200 1.300
74/03/31 24 00
74/04/30 00 00
CPU)— 1.040 23.000 8.800 9.800 11.000 1.300 1.400
74/04/30 24 00
74f0b/03 00 00
CPCT}— 5.400 1.300 0.110 3.130 3.600 2.000 1.300
74/06/03 24 00
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STORET ,. CTPIEvAL DATE 7 /ogi ,
‘.723eB A ’.723 3ti
35 ‘.9 22.0 0 6 2’ 4
JRFRE..SdO O 2
‘ .7 7.5 U FREESBO O
T/j PERCY PRIEST RESERIO 052091
*EST FORK STONE:S RjVEr
I1E-’ALES 214120’.
0000 FEET DEPT- CLASS 00
00630 00625 0 6I0 00b71 00665 50051 50053
DATE TIME DEPIrI NO2 .NO3 TOT
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STOPET PQETRIEVAL DATE 7 f09/O9
00630
DATE TIMF DEPTrI N02&N03
FROM OF N—TOTAL
TO OAr FEET MG/L
73/06/07 11 00
CP(T)— ‘9.200
73/06/07 16 00
73/07/OS 11 00
CPU)— 7.900
73/07/05 16 00
73/08/Oh 11 00
CPCT)— 7.900
73/08/06 16 00
73/09/06 11 00
CP(T)— 17.500
73/09/08 16 00
73/10/OS 11 00
CP(T)— 25.000
73/ 10/05 16 00
73/11/08 11 00
CP(T)— 24.000
73/11/08 16 00
73/12/04 11 00
CP(T)— 5.000
73/12/04 16 00
74/01/07 11 00
CPU)— 3.500
74/01/07 16 00
74/02/04 11 Ofl
CPU)— 2.320
7’./02/04 15 30
76/03/05 11 00
CP(T)— 9.900
74/03/05 16 00
74/05/07 11 00
CP(T)— 4.100
74/05/07 16 00
74/06/03 11 00
CPU)—
74/06/03 16 00
00625
TOT P(JEL
N
MG/L
0.500
0.160
2.520
47?3EA A54723EA P000408
36 03 27.0 08k’ 33 17.3 4
LA VEGNE
47 7.5 LA vE uNE
T/J PERCY PRIEST RESERvO 052091
riURRICA’IE CREEK
11E ALES 2141234
0000 FEET OE Tr4 CLASS 00
00610
00671
00665 50051 50053
NH3—N
PriOS—D S
P OS-TOT FLOW CONDUIT
TOTAL
ORTNO
RATE FLO -MGD
Hr,/L
MG/L P
MG L P INST H(,Q MONTriLY
0.019
2.200
2.700 0.032 0.060
0.160
12.000
12. 00 0.017 0.021
0.080
6.200
10.000 0.013 0.016
0.740
0.013 0.013
2.000
0.530
3.600
15.000 0.013 0.014
1.200
0.042
11.000
11.500 0.013 0.013
0.500K
0.037
3.050
3.100 0.053 0.O1
1.500
0.040K
1.520
1.700 0.015 0.020
1.500
0.043K
1.000
1.250 0.010 0.015
5.700
0.057
6.000
6.800 0.002 0.003
1.000K
O.05u
1.880
2.200 0.078 0.053
5.000
0.081
2.150
2.400 0.028 0.021
K VALUE KNOWN TO BE
LESS ThAN Ii DICMTED
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sTO T ETP1EVAL L)ATE Th/0 /O9
4723 A A .723FA 000000
36 01 e2.0 0 s6 14 50.0 4
rlU ??1CA E CREE LANT
47 7.5 LA VL u’4E
T/j Pt RCY “ IEST ESER 0 052091
r-ItJRPICA E CREEK
LIEPALtIS 21’.12 ’.
OODO PEtIT DEPTh CLASS 00
00630 00625 00610 00671 006 5 50051 50053
DATE TIME DEPTH O2&N03 TOT KJEL NH 3-N PriOS—DIS P t-(OS-TOT FLOW CONDUIT
FROM OF N—TOTAL N TOTAL ORTHO RATE FLOW—MG I)
TO DAY FEET MG/L ‘ IG/L MC./L MG/L P lG/L P INST MGO MONTMLY
73/09/04 09 00 3.360 0.400 0.C75 2.400 2.600 0.250 0.250
73/09/Ot’ 10 00 2.620 2.260 0.230 5. 00 0.200
73/10/0? 09 00 5.130 1.050 0.037 3.225 3.375
73/1L/0 39 00 2.730 0.5001< 0.066 1.200 1.650 0.200
73/12/12 10 00 1.150 t.eoo .01€ 2.200 2.400
7’./01/02 10 00 O.IbO 0.810 0.100 0.340 0.’.70 0.716 0.b lS
74/02/01 10 00 0.760 1.000K 0.051 0.350 0.790 1.1’.0 0.865
74/03/01 10 00 0.960 1.300 0.0501< 0.710 0.780 1.120 1.090
74/04/01 10 00 0.480 1.0001< 0.050K 0.300 0.450 1.110 1.120
74/05/02 10 00 1.000 1.200 0.067 0.740 0.790 1.140 1.130
K VALUE KNOWN TO bE
LESS THAN INDICMTEI)
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STORET RETRIEVAL DATE 7 b/09/) 9
‘ .723 AS4723GA P00S 34
35 59 30.0 0 6 30 50.0 4
SMY-N 1
47 7.5 SMYRNA
T/j ‘ IEST - t SER O 0 ,2O’fl
,‘A T5 ANCH/STE Ar T CREEK
11 ’AL 214120’.
0000 FEET DEPIri CLASS 00
00630 00625 0(’610 00671 0O6b 50051 50053
DATE TIME DEPTr NO2 4O3 TOT KJEL ‘ H3-N PriOSDIS hOS—TOT FLOw CONDUIT
FROM OF s—TOTAL N TOTAL ORTrIO RATE FLOw—MGU
TO DAY FEET MO/L ‘4G/L MG/L r lG/L P MG/L P INST MGI) MONTHLY
73/06/14 08 00 15.200 1.825 3.155 14.130 14.400 0.310 0.335
73/07/14 08 00 16.000 0.390 0.078 13.700 1 ’ ..000 0.390 0.365
73/08/16 08 00 9.780 1.100 0.080 io.eoo 10.800 0.425 0.394
73/09/13 15.300 1.400 0.120 15.200 15.500 0.445 0.400
73/10/16 08 00 20.000 3.016 14.500 17.600 0.444 0.406
73/11/15 oa 00 19.400 2.410 C.025 15.000 17.000 0.300 0.265
74/01/29 08 00 2.600 0.490 2.320 2.600 0.841 0.525
74/02/14 08 00 17.000 1.000K 0.054 14.000 15.700 0.611 0.580
74/03/15 08 00 1.00O 0.050K 13.500 0.480 0.520
74/03/16 00 00
CP(T)— 17.600 1. 000K 0.060 15.000 15.000 0.456 0.500
74/03/16 24 00
74/04/17 08 00 17.000 1.000K o.050 c 13.000 17.000 0.500 0.650
74/05/20 08 00 16.000 1.800 0.100 11.000 13.000 0.360 0.450
7 ./06/13 08 00 12.600 1.000K 3.050K 8.700 8.700 0.500 0.500
K VALUE PSNOWN TO 8E
LESS TI-IMN INDICATED
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5T)riEJ —ET 1EVAL TE
00’ 3
36 05 ‘ .0 086 37 15.0 4
NA5 1 1LL /SM11r S r<1 (, PL. .T
47 7.5 LA Vt. t ’
T/J ?E CY 1EST r SE O 0S2O’ 1
E FI -,AM1LTON C t r
11E , ALES 214120’.
0000 FEET Dc T’-’ CLASS 00
00633 00625 00610 00671 00655 50051 50053
DATE T1 iE DEPTH NO2 O3 TOT tcJEL N-iJ-N iOS—DIS r1OS—TOT FLOw CONIL)UIr
F OM OF N-TOTAL N TOTAL ORTHO RATE FLOm—MC,L)
TO DAY FEET MC)/L D/L NiG/L HG/L P HG/L ‘ P dST MGO MONTIILY
73/u9/04 09 00 0.050 26.000 17.000 0.500 0.500
73/09/0, 10 00 0.033 2.400 0.500 0.500
73/10/01 09 00 0.270 36.000 6.200 10.050 11.5u0 0.237 0.223
73/11/06 09 00 15.000 2.800 0.160 12.400 13.500 0.544 0.3 O
73/12/12 10 00 16.800 1.200 0.084 11.600 15.000 1.450 0.600
74/01/02 10 00 6.300 1.700 0.069 5.040 5.000 0.616 0.526
74/02/01 10 00 0.080 8.000 ..49O 6.500 7.203 0.7S0 0.750
74/03/01 10 00 8.000 1.200 0.059 6.700 8.300 0.750 0.750
74/04/01 10 00 8.400 3.300 0.100 6.500 9.100 0.750 0.750
74/05/01 0.360 16.000 3.800 9.400 11.000 0.750 0.750
74/09/30 10 00 0.240 14.000 5.900 8.750 9.300 0.600 0.600
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APPENDIX E
PARAMETRIC RANKINGS OF LAKES
SAMPLED BY 1ES IN 1974
STATE OF TEP#IESSEE
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AT ) 1\ - ‘i • ‘
.
_—.t L J-’ \ .C
‘ . 7 LI L. E i KLtT c.12’ 47J. j 1 12.723 1o. .Gt) 0.0’.?
47,’. fl-i E E Vui- 0.05? 0. 95 “.2.071 11.415 1 ’.. 0 o
‘7 C-,L4Tr1 M cEiE Vi)1r 0.1’. ? 0. .6C . .73.dO O e.ioa 0.004
..707 C-’1 Ci”EE LAIcE o.0 i 0.7 130 ‘ 4e3.b67 12.162 15.000 0.022
4708 Crs1CP Ah4AU(,A LArE 0.031 0.440 463.b33 3.111 ‘ ,i.6 0 0 0.012
‘711 )OUuLAS LAKE 0.025 u.44) 442.. 23 ..S53 15.tsGO 0.01’.
‘712 F0 T LOUDQ’ I RESE VUIF Q.35 0.550 465.bl l 4.776 12.600 0.02
47j3 G, LAT VALLS LA(E u.020 0.405 4’ ..417 3.983 14. 00 0.007
4717 PIICKAJACK PESE VO1R 0.0 1 0.495 4S9. 33 2.742 9.700 0.025
‘720 OLD HICKOkY LAKE Q.0S I 0.330 66’i.7 69 8.931 9.400 0.01
4722 WATTS AR RESE.WVOIR 0.03 ? 0.510 462.250 5.550 11.000 0.012
4723 J. , ERCY PRIEST .ESEI V .)L 0.056 0.155 430.200 9.993 15.000 0.021
4724 TIM’S FORU ESErV0IR 0.021 0.445 398.167 6.739 14.900 0.009
‘.725 SOUTP, HOLSTON LAKE 0.014 0.570 4 6.750 7.667 15.000 0.008
4727 REELFOOT LAKE 0.233 0.170 477.917 dO.958 13.200 0.059
4728 wOODS P1ESERVOL I 0.017 0.320 429.083 7.392 15.000 0. O Ob
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PE C NT jF L. ’cE , atTn HI rER VA ..J S c F LAKES .Ifh -ir:r ER V LUL ’
MEAN 15—
L E N& ’4E TOTAL P !NO C, . S C C Jr I..
4701 LAKE APKLEY 13 C 2) ‘0 C 6) 13 C 2) 7 C 1) 73 C 11) 13 C 2) 159
‘.70’. BOONE RESEPVOI ‘ .0 C 6) 0 C 0) 73 C 11) 2 C 3) 47 ( 7) O ( ) 200
4706 CHEATHAM RESERvOIR 7 C 1) ‘ .7 ( 7) 7 1) 40 6) 9 ) ii.) 0 C 6) 191
4707 CHEROKFE LAKE 50 C 7) 7 C 1) 53 C 8) 13 C 2) 13 C 01 40 C 6) 176
4708 Cri?CKAHAUGA LAKE 67 C 10) 63 C 9) 33 ( 5) 9,3 ( )4) 90 C 13) 70 ( 10) ‘.16
“71) DOUGLAS LAcE 73 C 11) 63 C 9) 67 C 10) 80 C 12) 13 ( 0) 60 ( 9) 3 56
4 ’T12 FORT LOUDON RESERvOIR 33 ( 5) 20 C 3) 27 C 4) 73 ( 11) 60 C 9) 27 ( k) 240
4713 GQEAT FALLS LAKE 87 ( 13) 73 ( 11) 60 C 9) 87 C 13) 40 C 6) 93 C 14) 440
4717 NICKAJACK RESEi VOIR SO 7) 33 C 5) 47 C 7) 100 ( 15) 80 C 12) 33 C 5) 343
4720 OLD HICKORY LAKE 20 C 3) 80 ( 12) 20 ( 3) 33 C 5) 100 C 15) 53 ( 8) 306
4722 WATTS BAR RESERVOIR 60 C 9) 27 ( 4) 40 C 6) 67 C 10) 67 C 10) 70 C 10) 331
4723 J. PERCY PRIEST ESERVO1 27 C ‘. 100 C 15) 80 C 12) 27 C 4) 13 C 0) 47 C 7) 294
‘.724 TIM’S FORD RESERVOIR 80 C 12) 53 ( 8) 100 ( 15) 60 C 9) 33 C 5) 80 C 12) 406
4725 SOUTH HOLSTON LAKE 100 C 15) 13 C 2) 93 C 14) 47 C 7) 13 C 0) 87 C 13) 353
4727 REELFOOT LAKE 0 C 0) 93 C 14) 0 C 0) 0 C 0) 53 C 8) 7 C 1 153
4728 WOODS RESERVOIR
93 C 14) 87 ( 13) 87 C 13) 53 C 8) 13 ( 0) 100 C 15)
433
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